DE19630195A1 - Procedure for transmitting announcements with the recipient to carry out the procedure - Google Patents

Abstract

A process for transmitting traffic messages over digital radio DAB by using the TMC code makes it possible to allocate easily the audio signals to the TMC data. The allocation is given by the data frames of the digital sender and by the corresponding data protocol.

Description

State of the art

The invention relates to a method for the transmission of Announcements by the traffic warning service using the Digital audio broadcasting (DAB) and a receiver for Reception and selective playback of announcements.

Traffic announcements for road users currently exist from spoken messages from analogue channels be broadcast. A further development is the digital traffic warning service with radio data system (RDS) Traffic Message Channel (TMC). The structure and the Coding of digital traffic reports are in CEN Draft pr.ENV / 278/4/1/0011 set out on the proposed standard Alert C, November 1990, published by RDS ATT Alert Consortium based. The essential elements of a Traffic announcements are the location of the event and the event. This information is cataloged d. H. that every traffic-relevant place and everyone assigned a unique code to traffic-relevant events is. The chaining of the locations along the location table existing roads reflect the course. Except the usual facilities of a receiving device with a  Decoders are used to use the traffic information channel TMC Devices for decoding, storage, Further processing and output of the traffic announcement required. To decode these digitally encoded Traffic announcements is a translation into language required. This is associated with considerable effort, so that in countries or language areas with low Population figures with an introduction of the TMC system in is not to be expected in the foreseeable future. Traffic announcements as spoken messages - in the following traffic announcements called - but are in contrast to traffic reports from the TMC-Systems not regarding their geographic assignment selectable.

At the same time, with the increasing introduction of digital broadcasting, digital audio broadcasting (DAB) count. Digital broadcasting has compared to the old ones analog method the advantage that the reception is very much is more reliable and comparable to a CD Has sound quality. The specifications of the digital Radio broadcasts are specified in ETS 300401, February 1995. For the transmission of the TMC messages is in the log of the digital radio a channel, the Fast Information Channel (FIC) provided. In the currently available However, there are still no end devices for digital radio Decoder for TMC messages included. Thus at the time the digital radio only those integrated in the radio program Output traffic reports, but as in the analog Process neither selectable nor in any way are managing.

Advantages of the invention

The inventive method with the characteristic In contrast, features of the main claim have the advantage  that the digital transmission of radio is simple Assignment to the data of the digital traffic warning system enables. Another advantage is that the transfer of TMC data on digital broadcasting done much better, because reception problems with the digital process are less are. This is especially true in areas with multi-path reception (Mountains, skyscrapers of a big city) and / or in areas that are supplied by transmitters that are ARI broadcast, take advantage.

By the measures listed in the subclaims advantageous further developments and improvements of the Main claim specified procedure possible.

It is particularly advantageous to use the TMC messages in the FIC data channel and traffic announcements on digital radio with the help of data blocks, so-called link objects, connect to. The uniqueness of the assignment is in this Case due to the parallelism of the transfer and the Connection to the transmitter secured.

According to this method, the start and the end of a traffic announcement on digital radio Pressing a button signals a speaker, the Signaling takes over control of the TMC transmission.

In a further advantageous embodiment, the Traffic announcement data not from the actual one Radio program broadcast, but it will be separate transmitted audio segments used. This means that Possibility to make announcements in different languages transmitted and so a selection in the receiving device in the enable correct language. An advantageous one Embodiment for a receiver that enables Announcements by the method according to the invention received, includes a DAB decoder and a TMC Decoder and an associated management.  

drawings

Embodiments of the invention are shown in the drawing and explained in more detail in the following description. It shows Fig. 1, the basic structure of digital broadcasting. Fig. 2 shows the structure of a FIB (Fast Information Block), Fig. 3 shows the start point of a parallel transmission, Fig. 4 shows a multimedia object with audio segment and Fig. 5 shows a block diagram of the receiver and Fig. 6 shows an example of an object set in memory Recipient.

Description of the embodiment

The inventive method is used to TMC messages, traffic announcements and other optional information such. B. to transmit road maps to traffic reports in digital radio. Digital radio (DAB) enables parallel transmission of text, audio or video sequences. A DAB ensemble is broadcast by a DAB station. In Fig. 1, such an ensemble is identified in level A with the term "north". A single program, e.g. B. A radio program is referred to as a service, see level B. In FIG. 1, services such as NDR1 and FFN are mentioned. A service can have several components, called service components, e.g. B. audio, data, video components, etc. These components are shown on level C. One of the possible components is TMC. At level D, the data frame of digital radio, subchannels are assigned to the individual service components. The specification of digital radio according to ETS 300 401 prescribes a special channel FIC (Fast Information Channel) for the TMC messages. The various subchannels are summarized under the term MSC Main Service Channel. The transmitter gives the entire data block a frame structure, the data being preceded by a synchronization word Sync. The area of the Fast Information Channel relevant for digital traffic radio is divided into several Fast Information Blocks (FIB). The FIBs are divided into several data types and extensions. A fast information block is shown in FIG. 2 on level E. The actual data field comprises 30 bytes, while the control field CRC (Cyclic Redundancy Check) comprises 2 bytes as an error protection code. The actual data field has several extensions at level F. A special extension is made up of a header and the extension data, see level G. This structure from level G represents a Fast Information Data Channel (FIDC). According to the proposed protocol ETS 300 401, the Fast Information Data Channel corresponds to data type 5. According to Level H, the header of the FIDC contains Type 5, the length information the Extensions in Length, an Rfu 0 (reserved for future), Tcld (Type Component Identifier) and Ext 1 as the first extension of the FIB. The actual information takes place in the Extension Data areas, whereby up to six TMC groups can be transmitted. The groups contain a 37-bit coded traffic message. If an FIB is not used completely by extensions, the last extension is followed by a data end marker, the remaining length is filled with padding bytes.

The transmission within the data frame structure defined by the transmitter takes place for data in packed mode (e.g. multimedia objects) and for radio programs in stream mode (e.g. announcements). A multimedia object consists, see FIG. 3, of a mandatory header with a length of 10 bytes, as well as an optional header with variable length and the object body, which contains the actual data. The linking of TMC messages in the Fast Information Channel and traffic announcements in the audio stream is carried out with special media objects, the link objects. On the one hand, these objects refer to a part of the audio stream that contains the traffic announcement (mandatory header and body), on the other hand, it contains the reference to the TMC message (optional header). It does not refer to the Fast Information Data Channel, but to the service component of level C, from which the TMC message comes. The uniqueness is ensured due to the parallelism of the transmission and the connection to the service. The start and end of the traffic announcement is signaled in the transmitter by pressing the button of the speaker or technician. When the beginning of a traffic announcement is signaled, the corresponding TMC message is transmitted once in the Fast Information Data Channel. In parallel, in the same digital radio data frame, a link object is generated by referring to the starting point of the audio stream, ie to the start of a traffic announcement, and establishing the connection to the TMC message. When the end of a traffic announcement is signaled, a further header is generated in one of the following data frames, which indicates the end point of the audio stream. The marked part of the audio stream is stored in the receiver together with the associated TMC message and is used in other applications such as. B. a selection available. Within the digital radio data frame, in which the multimedia object is transmitted, only one TMC message may be transmitted in the Fast Information Channel. The TMC messages in other data frames are irrelevant, even if the audio stream has not yet ended, since these are not referred to by the link object. Only the linking of an audio stream with the TMC messages is permitted, since the synchronization can only be carried out from one program. Usually, several services can access the same service component, but only one service can determine the content of the service component.

Another advantageous embodiment selects a different structure of the link object. The TMC message is no longer transmitted via the FIC channel, but the optional header of the link object contains the TMC message itself. The audio stream is marked as described in FIG. 3 and above. At the start of a traffic announcement, the corresponding TMC message is entered in the optional header of the link object. At the same time, the link object refers to the starting point of the audio stream, ie to the start of a traffic announcement. When the end of the traffic announcement is signaled, a further header is generated in the data frame, which indicates the end point of the audio stream. The marked parts of the audio stream are stored in the receiver together with the associated TMC message and are available for further applications. With this embodiment, each program can provide its own, individual traffic announcements that can be selected.

In a further embodiment, the parallel audio stream, that is to say the radio program, is not used to transmit the traffic announcements, but the statements are assigned to a separately transmitted audio segment. It is advantageous if an audio segment corresponds to a traffic announcement. The program makes the traffic announcements available as audio segments and as TMC messages. The TMC messages are transmitted in the optional header of the multimedia object in accordance with Fig. 4. The audio segment is set in the Object Body area.

Optionally, it is also possible to use the TMC message in the object body and to transmit the audio segment in the optional header.

A further development of this method consists in transmitting several audio segments, video segments and text labels in the optional header. This makes it possible to make the traffic announcements visible in different languages, as well as a graphic representation of the traffic disruption on a road map and a text representation of the message directly in the recipient. A receiving segment operating according to the method according to the invention is shown in FIG. 5. The radio programs, the TMC messages and other data are transmitted from the transmitter 1 via digital radio. In the DAB decoder 2 in the vehicle itself, audio and video signals of the current programs are decoded, generated and fed to the playback unit 8 . On the other hand, the multimedia objects and the data channels are decoded. The TMC messages are fed to the TMC decoder 3 , the audio, video segments and text inputs are fed to the management 4 . The TMC decoder decrypts the TMC messages and also forwards them to management 4 . In Management 4 , the objects coming from the DAB decoder are managed using the TMC messages. The correct assignment of the objects to one another, as well as the storage in the memory 5 , and the updating and possibly deletion of the objects stored in the memory 5 is controlled by the management. The user can enter selection criteria, for example highway numbers, via an input device 7 . These entries are compared with the information contained in the TMC messages at 6 and output if necessary. FIG. 6 shows a possible arrangement of a TMC message for an object set which contains various audio segments, video segments and text messages. These messages can also be selected using the selection.

Claims (11)

1. A method for transmitting traffic announcements via digital radio (DAB), characterized in that the data of the message of the digital traffic warning system is assigned to the announcement data of the digital radio via the data frame structure of the transmitter. 2. Procedure for the transmission of traffic announcements after Claim 1, characterized in that the digital Signals preferably in immediate temporal Transmitted in connection with the digital announcement data will. 3. Procedure for the transmission of announcements according to the Claims 1 and 2 that as digital signals messages from Traffic Message Channel according to the Allert C protocol be used. 4. The method according to claims 1 to 3, characterized characterized that the digital signals and the announcements can be linked using multimedia objects. 5. The method according to claim 1 to 4, characterized in that the digital data from headers and a data area (Body) exist.   6. The method according to claims 1 to 5, characterized characterized that the beginning and end of the Traffic announcement through a link object with a special Header is marked. 7. The method according to claims 1 to 6, characterized characterized in that the link object is an indication of a contains digital message in the optional header, and the beginning the traffic announcement in the audio stream in the header plus body marked. 8. The method according to claims 1 to 7, characterized characterized in that the multimedia object is the digital Message itself in the header transmits. 9. The method according to claims 1 to 8, characterized characterized in that the multimedia object is the digital Information and the traffic announcement as an audio segment itself contains. 10. Receiver for reception and for selectable playback of announcements related to digital Information is received, characterized in that the receiver has a special decoder for digital Contains messages and the traffic announcements. 11. Receiver according to the preceding claim, characterized characterized in that a management system is provided that the incoming audio and digital information coordinates.