DE102004019988A1 - Codec mode configuration selection for transcoder-free operations - Google Patents

Abstract

The invention describes a method and a device for establishing a TrFO connection between two communication terminals via a communication network. According to the invention, at least one codec mode configuration supported by a radio network controller (RNC1, RNC2) involved in establishing a connection is stored in a memory unit (T1, T2). This information is communicated between the switching units (MSC1, MSC2) and used to select a mutually supported codec mode configuration or subset of a codec mode configuration.

Description

The The invention relates to a method and a device for construction a TrFO connection between two communication terminals via a communication network.

Around Transcoder-free operations (TrFO = Transcoder free Operation) must be used between the participating network units (UEs, RNCs, MSCs) a common codec type, or in the case of a multirate codec type a common set or configuration of codec modes (codec Modes) are negotiated. Between communication terminals (UEs) and switching units (MSCs) to this the necessary information at the Iu interface via NAS signaling or via the Nc interface over BICC signaling exchanged. To the radio network controller (RNC) To date, no corresponding signaling protocol has been defined on the while the connection setup the wireless network controller features (RNC properties) of the switching unit (MSC) can. Instead, an RNC database is generated in the exchange unit (MSC), the RNC properties, such as supported codec types and modes contains and from the network operator O & M means (Operation and Maintenance = operation and maintenance) is loaded.

So far attaches to the terminating MSC a transcoder-free operation (TrFO) to negotiate the codec mode configuration, the one from the set of all commonly supported modes and codecs selects any codec mode configuration. The term codec mode configuration refers This affects both the modes of a codec, z. B. AMR (adaptive multirate codec) as well as various codec types, e.g. B. AMR and GSM Full Rate.

The reality shows, however, that on the access network side (UTRAN side) not any codec mode configuration is supported, but that the number of supported codec mode configurations is limited to a few. If the codec mode configurations supported on the access network side (UTRAN side) are not taken into account during the codec negotiation, this can lead to the termination of a connection setup, as described in 1 illustrates lead.

The The object of the invention is a simple and efficient way to reduce disconnections during a transcoder-free To propose operation.

The Task is inventively each things the independent one claims solved. Further developments of the invention are specified in the subclaims.

One The core of the invention is that in a storage unit the codec mode configurations supported by the involved radio network controllers get saved. these can taken into account when negotiating the codec which only allows codec-mode configurations from the switching units MSCs are selected that too supported by the radio network controllers (RNCs).

A advantageous embodiment of the invention is that in a radio network controller (RNC) not just a codec mode configuration, but all of them Subsets of the codec mode configuration are supported, i.e. for example, if the codec mode configuration "a / b / c" is supported, then also the subsets a, b, c, a / b, b / c, a / c. In the storage unit becomes one for that stored corresponding information that provides information about which subsets a codec mode configuration from a wireless network controller supports become. This information may appear in a signaling message, an element of a message, a bit, etc. to a receiving one (terminating) exchange unit (MSC). When negotiating The codecs can, for example, the receiving switching unit (MSC) check whether the offered codec mode configurations are supported, and in a second step, which subsets the codec mode configurations get supported.

One Advantage of the invention is the fact that with only a small technical effort, the number of disconnections between two communication terminals can be significantly reduced. In addition, the execution of the Procedure and the device has the advantage that the probability for one transcoder-free operation connection increases, because the access network (UTRAN) not only codec modes configurations, but their subsets also support, and thus the connection quality between two communication terminals be increased considerably.

The The invention is based on an embodiment shown in a figure explained in more detail. there demonstrate

1 a simplified network architecture for the well-known negotiation of a codec mode for a connection between two communication terminals,

2 a simplified network architecture for the negotiation of the codec mode configuration according to the invention,

3 a simplified network architecture for the negotiation of the codec mode configuration according to the invention, including the subsets,

4 a device according to the invention for carrying out the method.

1 shows a simplified network architecture for negotiating a codec mode for a connection between two communication terminals UE in, for example, a cellular mobile radio network, such as the UMTS network. The wireless network controller RNC1 supports two different codec mode configurations (mode ( 1 . 2 ) 3 . 4 )). In contrast, all the AMR modes are in the memory unit T1 of the controlling switching unit MSC1 1 to 4 entered. The switching unit MSC could also be an MSC server or the like. In this example, the negotiation of the codec mode is illustrated by BICC signaling (BICC = Bearer Independent Call Control). However, the signaling used is insignificant for the method according to the invention. For example, SIP signaling (SIP = Session IP Protocol) etc. could be used to negotiate the codec mode. The codec mode configurations supported by the radio network controller RNC1 are disregarded. The second radio network controller RNC2 also supports two different codec mode configurations (mode 1 . 2 and mode 4 . 5 ). In the memory unit T2 of the second switching unit MSC2, the codec mode configurations in the radio network controller RNC2 are again disregarded. In the memory unit T2 are again all AMR modes 1 to 5 entered. For codec negotiation, the originating page with the switching unit MSC1, the RNC1 memory unit T1 and the radio network controller RNC1 transmits all supported codec types and modes, for example in the form of a list, table or similar to the receiving ( terminating) side with the switching unit MSC2, the memory unit T2 and the radio network controller RNC2 ( 1 ). On the receiving side, this list, table or similar of the supported codec types and modes are reduced by the types and modes not supported on the receiving side, a codec with a codec mode configuration is selected and sent back to the sending side ( 2 ). With the selected codec mode, an RAB assignment (Radio Access Bearer - Assignment) is now initiated in the direction of the radio network controller RNC1 ( 3 ). Since the radio network controllers RNC1 and RNC2 the selected codec mode configuration ( 1 . 2 . 4 ), but rejects the RAB allocation ( 4 ). Thus, no connection can be established with a transcoder-free operation between two communication terminals UE, such as a mobile radio terminal, a mobile computer, a mobile organizer, etc.

2 shows a simplified network architecture for the negotiation of codec mode configuration according to the invention. A codec mode configuration may consist of a combination of at least two codec modes. In the memory unit T1 of the controlling switching unit MSC1, the codec mode configurations (mode ( 1 . 2 ) and mode ( 3 . 4 )), which are supported by the radio network controller RNC1. The memory unit T1, T2 may also be a unit of the switching unit MSC1, MSC2. The second radio network controller RNC2 also supports two different codec mode configurations (mode 1 . 2 and mode 4 . 5 ). In the memory unit T2 of the second switching unit MSC2, these two codec mode configurations of the radio network controller RNC2 are entered or stored. For codec negotiation, the transmitting (originating) side with the switching unit MSC1, the memory unit T1 and the radio network controller RNC1 transmits or signals the codec mode configurations supported by the radio network controller RNC1, for example in the form of a list , Table or the like to the terminating side with the switching unit MSC2, the memory unit T2 and the radio network controller RNC2 (FIG. 1 ). On the receiving side, this list, table, or the like with the radio network controller RNC 2 supported codec-modi configurations in memory unit T2, reduced to the supported codec-mode configurations, a codec mode configuration selected and sent back to the sending side ( 2 ). With the selected codec mode configuration, a radio access bearer (RAB) task is now initiated in the direction of the radio network controller RNC1 ( 3 ). Since both radio network controllers RNC1 and RNC2 the selected codec mode configuration ( 1 . 2 ), a transcoder-free operation connection TrFO connection can be set up between two communication terminals UE ( 4 ).

3 shows a simplified network architecture for the negotiation of the codec mode configuration according to the invention including the subsets. Negotiating the codec mode configuration to be selected is done as in 2 described. In addition, however, information is also sent to the receiving switching unit MSC2 which indicates that the radio network controller RNC1 supports subsets of the signaled codec mode configuration. The information can be transmitted in a signaling message, a bit, an element of a message, etc. to the receiving switching unit MSC2. In this simplified case, the radio network controller RNC1 supports all subsets and thus a yes / no information ( 2 ). The transmitting switching unit MSC1 signals or informs the receiving switching unit MSC2 that subsets are supported by the wireless network controller RNC1. This information is contained in the memory unit T1, which states whether subsets of the wireless network controller RNC1 are supported. The storage unit T2 stores the information as to whether the radio network controller RNC2 supports subsets. The receiving switching unit MSC2 may then select at least one codec mode configuration or a subset thereof, which is supported by the involved radio network controllers RNC1, RNC2. As a result, the probability that a TrFO connection between two communication terminals UE comes about can be further increased. This example can be used with the mode 2 a TrFO connection will be established.

4 shows an inventive device for performing the method according to 2 and 3 , The device is ideally a switching unit MSC and has a transmitting unit S and a receiving unit E for mobile communication with further network units, such as a radio network controller RNC, a switching unit MSC and a communication terminal UE. In a memory unit T, the codec mode configurations supported by a network radio controller RNC are stored. The storage unit T can be a table, a database, a list or the like. A processing unit V in the switching unit selects such a codec mode configuration for establishing a transcoder-free operation between two communication terminals, which are also supported by the at least two involved radio network controllers (RNC1 and RNC2).

Claims (18)

Method for establishing a TrFO connection between two communication terminals via a communication network, characterized in that in a memory unit (T1, T2) at least one of a participating in a connection setup radio network controller (RNC1, RNC2) supported codec mode configuration is stored. Method according to claim 1, characterized in that at least one of a transmitting switching unit (MSC1) codec mode configuration stored in the memory unit (T1) for the Construction of a transcoder-free operation connection between the two communication terminals is transmitted to a receiving switching unit (MSC2). Method according to claim 1 or 2, characterized that the receiving switching unit (MSC2) a codec mode configuration selects that of the receiving wireless network controller (RNC2) supported becomes. Method according to one of the preceding claims, characterized characterized in that a codec mode configuration at least one Codec mode represents. Method according to one of the preceding claims, characterized characterized in that the memory unit (T1, T2) is a unit of Switching unit (MSC1, MSC2) is. Method according to one of the preceding claims, characterized characterized in that in the memory unit (T1, T2) information included is that a radio network controller (RNC1, RNC2) at least supports a subset of at least one codec mode configuration. Method according to one of the preceding claims, characterized characterized in that by a transmitting switching unit (MSC1) an information regarding the support of at least one subset at least one codec mode configuration to a receiving switching unit (MSC2) becomes. Method according to one of the preceding claims, characterized characterized in that the receiving switching unit (MSC2) a codec mode configuration and / or select a subset, supported by the receiving wireless network controller (RNC2). Method according to one of the preceding claims, characterized characterized in that the communication network is a cellular mobile network is. Method according to one of the preceding claims, characterized characterized in that the memory unit (T1, T2) is a database, a list and / or a table is used. Device for establishing a TrFO connection between two communication terminals via a communication network, with a transmitting unit (S) and a receiving unit (E) of a switching unit (MSC1, MSC2) for mobile communication with further network units (RNC1, RNC2, MSC1, MSC2, UE), with a memory unit (T1, T2) for storing at least one codec mode supported by radio network controllers (RNC1, RNC2) involved in establishing a connection. Configuration comprising - a processing unit (V) in the switching unit (MSC2) for selecting only one such codec mode configuration for setting up a transcoder-free operation between the two communication terminals, which is also used by at least two participating radio network controllers (RNC1 , RNC2) is supported. Device according to claim 11, characterized in that the storage unit (T1, T2) is a unit of the switching unit (MSC1, MSC2). Device according to one of claims 11 and 12, characterized a transmitting switching unit (MSC1) for transmitting at least one codec mode configuration stored in the memory unit (T1) for the Building a TrFO connection between the two communication terminals to a receiving switching unit (MSC2) is provided. Device according to one of claims 11 to 13, characterized a transmitting switching unit (MSC1) for transmitting an information regarding the support of at least one subset at least one codec mode configuration to a receiving switching unit (MSC2) is provided. Device according to one of claims 10 to 14, characterized the receiving switching unit (MSC2) selects a codec mode configuration and / or a subset provided by the receiving wireless network controller (RNC2) supported becomes. Device according to one of claims 10 to 15, characterized in that as a communication network, a cellular mobile network is provided. Device according to one of claims 11 to 16, characterized that as a memory unit (T1, T2) a database, a list and / or a Table are provided. Device according to one of claims 11 to 17, characterized that as a network unit, a communication terminal (UE), a radio network controller (RNC1, RNC2) and / or a switching unit (MSC1, MSC2) are.