DE102007025618A1 - Ensemble transport interface signal transforming method, involves adding information block in connection to fast information blocks for forming ensemble transport interface signals in digital audio broadcasting mode - Google Patents

Abstract

The method involves adding an information block (30) in connection to fast information blocks (FIB1-FIB3) for forming ensemble transport interface (ETI) signals in a digital audio broadcasting mode. The ETI signals are provided with the fast information blocks with a length of 256 bits. The information block in connection to an end marker field is filled by padding until the 256 bits with cyclic redundancy check (CRC)-fields are obtained, where the information block is designed as a dummy-information block. The CRC is executed at an end of the information block. An independent claim is also included for a device for transforming an ensemble transport interface (ETI) signal in a digital audio broadcasting mode (DAB) into another DAB mode.

Description

The The invention relates to a method and apparatus for conversion any ETI signal, for example with a DAB mode 1, 2 or 4 in an ETI signal with a DAB Mode 3 after the genus the independent claims 1 and 7. It is already known that with the DAB radio system (Digital Audio Broadcasting) digitized data streams broadcast by a broadcaster and from a corresponding radio receiver (radio) decoded and converted into audible signals (information) become. Furthermore, there is a possibility that beside additionally digitized the audible signals Data streams are transmitted, their information be output on a display of the radio receiver. Corresponding service providers generate data streams that in a DAB multiplex, the so-called ensemble and on a corresponding FIC channel (Fast Information Channel) and on a corresponding MSC channel (Main Service Channel) by means of an ETI interface (Ensemble Transport Interface) to a transmitting device (Radio station) are transmitted.

On the receiving side, such as a car radio, are next to the audio signals contained in the ensemble (ETI data stream) data services decodes and are available without the receiving frequency must be changed. The data services are in service packages summarized and assigned to a sub-channel. This must be the same Information, such as traffic information provided by several Radio stations are offered as additional data service, only once transferred become. To the information contained in the DAB multiplex anyway to divide it back into the individual subchannels Each service provider provides additional information to those of him offered data. This additional information is also about transmit the FIC channel. In the FIC channel can thus any data services are transmitted, in particular Station names, alternative frequencies, program names, traffic information etc.

For DAB test systems are the data for example in DAB mode 1, 2 or 4 coded and often stored as canned food. Because the stored data, however, regardless of their coding to be sent with the same transmitting device is a Conversion to DAB Mode 3 is required. A transformation of Data within DAB modes 1, 2 or 4 is less problematic because these modes are similar in structure. Problematic is however a conversion of the data in the mode 3. The in the DAB mode 1, 2 or 4 stored data are different from the DAB mode 3 in that per unit of time three information blocks FIB (Fast Information Block) are transferable, with a Information block FIB contains 256 bits. DAB Mode 3 On the other hand, four blocks of information are FIB per unit of time required. Because of the different number of information blocks FIB So far only a signal conversion between the DAB modes 1, 2 or 4, but not in DAB mode 3.

From the DE 102005 023091 A1 Further, an apparatus and a method for receiving and outputting broadcast signals is known. It is proposed a device with which in particular DAB broadcast signals can be received and output. The device has an input device with which digital broadcasting signals can be received by a receiving antenna. Furthermore, a computing unit is provided with which the recorded digital broadcast signals are divided into audio signals and additional signals and converted. Subsequently, the converted audio signals are output as analog audio signals through an audio channel. The converted auxiliary signals are decoded by an RDS encoder which outputs analogue additional signals. Furthermore, the device has a modulator for recording the analog audio signals and additional analog signals. The modulator modulates the analog additional signals to the analog audio signals and thus generates analog FM signals. The generated analog FM signals are output to an analog radio receiver.

Of the Invention is based on the object, a method and a device specify that any ETI signal is converted into a DAB mode 3 can be. This task comes with the characteristics of the sibling Claims 1 and 7 solved.

In the method and the apparatus for converting any ETI signal into an ETI signal with a DAB mode 3 with the characterizing features of the independent claims 1 and 7, there is the advantage that the already existing ETI data, for example with the DAB mode 1, 2 or 4, converted into ETI data or ETI data streams with a DAB mode 3 and thus can be used uniformly. These files can be converted, for example, in the transmitting device and then sent as ETI data stream DAB mode 3. In the receiving devices, the ETI data stream DAB mode 3 can then be decoded and used without having to take into account the data format of the original ETI data. As a result, any ETI data in the individual receiving devices can be demodulated and output without any further aftertreatment. The Um Conversion into a DAB mode 3 signal takes place according to the invention in that a fourth information block per unit time is added to the arbitrary ETI signal, which is formed with three information blocks. The fourth information block is designed as a dummy FIB.

By those listed in the dependent claims Measures are advantageous developments and improvements of indicated in the independent claims 1 and 7 Given method or the device. As a particularly advantageous is considered that the fourth block of information at its beginning has an "End Marker" field. Through this "End Marker "field ensures that the decoder of the Receiving device in the fourth block of information no significant data must evaluate.

One Another aspect of the invention is that the fourth information block padding after the "End Marker" field, by the required 256 bit length of the information block to reach.

at a further advantageous embodiment of the invention provided that carried out at the end of the fourth block of information, a redundancy check becomes. When the redundancy check is performed with a predetermined Algorithm cyclically a 16-bit data word about the content of the fourth information block.

In Another embodiment of the invention is provided that in the fourth Information block instead of padding one or more useful ones Information groups are arranged. The information groups can copied from other information blocks and then the fourth Information block to be arranged. It is intended that at least a useful information group in the fourth information block The "End Marker" field is arranged, for example a subchannel organization as an information group in the fourth Information block to be copied. This gives the advantage that the bandwidth of the DAB signal in mode 3 for transmission the data can be better utilized.

According to the dependent claim 10 is provided that the device for converting any ETI signal into a DAB signal mode 3 is connected to a transmitting device. The transmitting device is designed to send the ETI data stream with the DAB Mode 3 coding and sends a corresponding ETI data stream from a DAB Radio receiver is received and decoded.

One Embodiment of the invention is in the drawing and will become more apparent in the following description explained.

1 shows a schematic representation of the formation of an ETI signal with a DAB mode 2, as known from the prior art,

2 shows a schematic representation of an arrangement according to the invention for an ETI signal DAB mode 3,

3 shows a schematic representation of an embodiment of the invention for a fourth information block,

4 shows a schematic representation of another embodiment of the invention for the construction of a fourth information block and

5 shows a block diagram of an inventive device for converting any ETI signal into a DAB mode 3 signal.

In 1 is first to better understand the invention in a schematic representation of the structure of a known DAB (Digital Audio Broadcasting) ETI signal with a transmission frame 10 as defined in the EUROPEAN STANDARD (Telecommunications Series) ETSI EN 300 401 V1.4.1 (2006-01). Within the transmission frame 10 of the ETI signal are arranged a synchronization channel synchronous Ch, a fast information channel FIC and a main service channel MSC.

Of the Synchronization Channel Synch Ch is used for basic demodulation, especially for a transmission frame synchronization, for an automatic frequency control, for the Defining the channel status and for a transmission identification used.

Within of a Fast Information Channel FIC are dependent from the selected transmission mode (DAB mode) up to 12 Fast Information blocks FIB arranged. For example in DAB Mode 1 a total of 12 FIB blocks with one transmission Frame of 96 ms arranged, in DAB mode 2 become 3 FIB blocks arranged with a transmission frame of 24 ms, in DAB mode 3 become 4 FIB blocks with a transmission frame of 24 ms arranged in DAB mode 4 and 6 FIB blocks with a transmission frame of 48 ms arranged.

Of the Main Service Channel MSC is used for multiplexing, Time, data and other basic functions used.

The invention relates to a method relate a device with which any ETI signal, for example, with a DAB mode 1, 2 or 4 can be converted into an ETI signal with the DAB mode 3.

In 1 is an example of a transmission frame 10 an ETI signal with a DAB mode 2 shown. In the transmission frame 10 For each unit of time, three information blocks FIB are arranged in the Fast Information Channel FIC. The information blocks FIB are labeled FIB1, FIB2 and FIB3. As previously described, a synchronization channel synchronous Ch is connected upstream and a main service channel MSC (main service channel) downstream. The time unit used for the Fast Information Channel FIC and the Main Service Channel MSC is 24 ms, ie the data of the three information blocks FIB and the Main Service Channel MSC are transmitted within 24 ms in each case.

As 1 is further removed, each information block FIB1, FIB2, FIB3 has a block length of 256 bits. Within this block length, a plurality of information groups FIGs can be arranged, wherein each information group FIG has a header and a data field.

On The Fast Information Channel FIC is the transmission speed and the transmission rate is relatively low. The single ones Information blocks FIB are dependent from the DAB mode transmitted in the Main Service Channel MSC so-called Common Interleaved Frames CIFs associated, respectively three information blocks FIB assigned to a CIF frame become.

As previously explained, thus the DAB modes 1, 2 or 4 in groups of three information blocks Be split FIB. As a result, they can be mutually converted.

With DAB Mode 3, however, four information blocks FIB are required. In order to enable a conversion into the DAB mode 3, it is proposed according to the invention, in the conversion of an ETI signal, in particular from a DAB mode 1, 2 or 4, into an ETI signal with a DAB mode 3, a fourth information block 30 add. The fourth information block 30 is called a dummy FIB. The conversion will be on hand 2 explained in more detail.

The transformation of in 1 represented ETI signal from DAB mode 2 in the DAB mode 3 is in 2 shown. As 2 is removable, the converted New ETI signal in DAB mode 3 contains the three information blocks FIB1, FIB2 and FIB3 and the fourth information block 30 , which is marked as a dummy FIB. This arrangement thus results in a converted ETI signal DAB mode 3, which has arisen from an arbitrary ETI signal, in particular with a DAB mode 1, 2 or 4. The data in the synchronization channel Synchr Ch and in the main service channel MSC are adjusted accordingly to ensure an exact assignment to the original ETI signal in DAB mode 2. The information block 30 thus essentially serves to generate the structure of a regular ETI signal in DAB mode 3. With the conversion according to the invention, the requirements for an ETI signal in the DAB 3 mode specified in the EUROPEAN STANDARD can thus be met in a very simple manner.

In Another embodiment of the invention is provided that analog in the same way as we did before with the example of an ETI signal was described in DAB mode 2, with the invention Process any ETI signal by splitting or adding converted from FIB blocks into an ETI signal in DAB mode 3 can be.

at a DAB Mode 1 signal is provided that the 12 FIB blocks in four Fast Information Channel FIC with three FIB blocks each be divided and that each added a dummy block so that for the new ETI signal in DAB mode 3 everyone Information Channel FIC now contains four FIB blocks.

at a DAB Mode 4 signal is provided that the six FIB blocks in two Fast Information Channel FIC with three FIB blocks each be divided and that each added a dummy block so that for the new ETI signal in DAB mode 3 everyone Information Channel FIC now contains four FIB blocks.

In 3 is shown in a schematic representation, as the fourth block of information 30 (Dummy FIB) is structured in detail.

At the fourth information block 30 is already at the beginning of the information block 30 a block end field is set with an "End Marker" 31. The "End Marker" field 31 is filled, for example, with "1." Since the fourth block of information 30 also like a normal information block FIB has a data field with 256 bits, the remaining data field of the information block 30 padded by padding. Padding is the completion of a data field with unusable or useful data. In this case, the data field is padded with "0".

At the end of the fourth information block 30 A CRC (Cyclic Redundancy Check) redundancy check is performed according to a predetermined algorithm to ensure that the required 256 bits of the fourth information block 30 available.

The fourth information block 30 is thus structured according to the same pattern as defined in the relevant standardization for all information blocks FIB.

By this inventive method for conversion Any ETI signal into an ETI signal in DAB mode 3 succeeds it advantageously that any ETI signals with the same transmitting device can be radiated.

In 4 is an alternative solution for the fourth information block 30 shown. In contrast to the embodiment of the invention according to 3 will now be at the beginning of the fourth block of information 30 One or more information groups FIG from a previous information block FIB, for example, the information block FIB1, FIB2 or FIB3, copied. Again 4 is removable, the two information groups FIG with the name 1 and 2 at the beginning of the fourth information block 30 arranged. The information groups 1 and 2 contain useful information, such as data about the organization of the subchannel, information about a data type or any other information. Following the last information group FIG2, the "End Marker" 31 set with corresponding "1." Should still free fields within the 256-bit data field of the fourth information block 30 be present, then these are by padding 32 filled with "0" in a similar way as it already was 3 has been described. This is followed by a redundancy check again 33 with a CRC algorithm according to the 3 wherein the CRC field is in the 256-bit data field of the fourth information block 30 is included.

By replenishing the fourth information block 30 with useful data of the information groups FIG advantageously the bandwidth of the DAB transmission channel is better utilized. Thus, more digitized data can be transmitted.

In In practice, it has been shown that the receiving behavior of a DAB receiver may be heavily influenced by the DAB mode can. Therefore, should existing canned music, in other DAB modes stored in ETI data streams with the DAB mode 3 be converted, thereby providing a higher test coverage is reached. Because only in DAB Mode 3 can four information blocks FIB are transmitted within a time unit of 24 ms.

In 5 is a schematic representation of a block arrangement for a device according to the invention 40 to convert any ETI signal into an ETI signal in DAB mode 3. In the block 41 the ETI data stream with the DAB mode 1, 2 or 4 is available. Analogous to the representation in 1 It is assumed that the available ETI data should be transferred according to DAB Mode 3. These data are in the block 42 converted into the DAB Mode 3, as it did before according to the 2 to 4 has been described. In the block 43 Then there is the converted ETI data stream in DAB mode 3. After that takes place in the block 44 a modulation of the DAB Mode 3 data stream. The modulated data stream is then sent to a transmitting device 45 conducted and broadcast so that it can be received by a DAB radio receiver.

QUOTES INCLUDE IN THE DESCRIPTION

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Cited patent literature

• DE 102005023091 A1 [0004]

Claims (10)

A method of converting any ETI signal, such as a DAB mode 1, 2 or 4 into an ETI signal having a DAB mode 3, wherein the ETI signal to be converted comprises three blocks of information (FIB) each 256 bits long and the converted converted into ETI signal in DAB mode 3 four information blocks per unit time, characterized in that - to form the ETI signal in DAB mode 3, following the three information blocks (FIB1, FIB2, FIB3) a fourth information block ( 30 ), the fourth information block ( 30 ) is preferably designed as a dummy FIB. Method according to Claim 1, characterized in that the fourth information block ( 30 ) at its beginning an "End Marker" field ( 31 ) having. Method according to Claim 2, characterized in that the fourth information block ( 30 ) following the "End Marker" field ( 31 ) is padded until the 256 bits including the CRC field of the fourth information block ( 30 ) are reached. Method according to one of the preceding claims, characterized in that at the end of the fourth information block ( 30 ) a redundancy check (CRC) is performed. Method according to one of the preceding claims, characterized in that in the fourth information block ( 30 ) in front of the "End Marker" field ( 31 ) at least one information group (FIG) of another information block (FIB) is copied or entered. Method according to claim 5, characterized in that that as an information group to be copied, for example, a subchannel Organization is copied. Device for converting any ETI signal, for example with a DAB mode 1, 2 or 4 into an ETI signal with a DAB mode 3 for a method according to one of the preceding claims, characterized in that the device ( 40 ) is adapted to the to be converted ETI signal in DAB mode 1, 2 or 4 per unit time to the three information blocks (FIB1, FIB2, FIB3) a fourth information block ( 30 ) and that the fourth information block ( 30 ) is preferably designed as a dummy FIB. Apparatus according to claim 7, characterized in that the fourth information block ( 30 ) an "End Marker" field ( 31 ) and that the remaining part of the fourth information block ( 30 ) is padded by padding. Apparatus according to claim 7 or 8, characterized in that before the "End Marker" field ( 31 ) at least one information group (FIG) is inserted, wherein the at least one information group (FIG) is copied from a usable information block (FIB). Device according to one of claims 7 to 9, characterized in that the device is an ETI interface ( 40 ) indicates that the ETI interface ( 40 ) with a transmitting device ( 45 ) and that the transmitting device ( 45 ) is adapted to emit an ETI data stream in DAB mode 3 for receiving the DAB broadcast.