EP1339180A1 - Method for transmitting coded TMC-messages in a broadcasting system and apparatus for receiving such messages - Google Patents

Abstract

In a first sequence (S1) an 11-bit-length event code (EC) is transmitted with a 16-bit-width location code (LC) connected. The event code passes to a car driver to carry a message, e.g. multistory car-park full. Location information about the road for the car-park is specified with the LC. In second (S2) and third (S3) sequences, code words (DL) are transmitted with details about the location, e.g. defined geographical coordinates. An Independent claim is also included for a device for issuing messages with a traffic message channel interpreter.

Description

Method for transmitting coded TMC messages in a message transmission system and device for receiving such messages.

The invention relates to a method for transmitting coded messages according to TMC standard in a communication system and a device to receive such messages.

It is now known to update current traffic information, such as. B. Traffic jam reports on FM radio as a so-called TMC (Traffic Message Channel) To transmit messages so that drivers know about current traffic obstacles to inform. The TMC messages are transmitted in the Radio data system (RDS). The TMC transmission in RDS is currently happening here in the RDS group 8A with 37 bits available per group. The data transfer The generation of the TMC messages is based on ALERT-C or ALERT-plus protocols. The ALERT protocols are precise for the RDS transmission tailored. ALERT stands for "Advise and Problem Location for European Road Traffic ". The ALERT-C protocol is a fixed protocol for transporting the TMC messages from acquisition to the broadcasting center. This compresses Transfer information in neutral data format with addresses which then be expanded into the respective national language in the receiver. It takes place a transmission of the location, duration, cause, information, etc. of the faults. The The TMC messages can then be output in a variety of ways done in an output device.

TMC messages have the advantage that every road user can access their own Get the traffic information relevant to him can.

To determine locations -locations- where certain events occur will take place in the well-known TMC process in ALERT-C or ALERT-plus coded TMC messages on predefined tables, so-called location tapes directed. These tables can, due to a defined key length of 16 bits, maximum 65 536 locations including tax codes, areas and countries contain. The number of maximum usable tables is also limited.

Currently there is only one location table for the Federal Republic of Germany available. For the transmission of messages for main routes, such as motorways, with congestion focus, this limited number of locations and appears Location tables for sufficient. Messages for possibly less important ones Locations that could be transmitted via TMC - e.g. B. Messages to and for parking garages - parking lots, ferries, construction sites, traffic light systems, speed measuring devices, Passes, ski pass, entertainment facilities, etc. fail however, due to the insufficient number of possible locations.

The present invention is therefore based on the object, the existing and to extend the introduced standard TMC to make it as free and complementary as possible Procedure for referencing locations or localizations without extension to enable the location table. In addition, a device is to be specified with which such supplementary TMC messages can be coded.

This object is achieved for the method by the features of claim 1.

A device for decoding the TMC messages transmitted using these methods is the subject of claim 5.

Developments of the invention are the subject of the dependent claims.

The invention is based on the knowledge that the ALERT protocols are sending Allow concatenated multi-sequence messages. These are according to the invention used to transmit additional information about events.

The idea of the present invention is to provide additional information More detailed description of the location for event description via multi-sequence messages provided. There is a correspondingly structured message from a location that the area in which the exact position is located, if possible describes exactly, e.g. B. Hamburg, and from an event report, which the message, e.g. B. Parking garage occupied, describes. As a multi-sequence message then transfer the location as precisely as possible.

The exact location can e.g. B. as geo-reference in latitude and longitude or as a mapping to a new, specially specified table.

The use of a georeference is particularly advantageous for navigation systems with additional information from digital road maps. Through the The georeference can transfer the area restriction, in the example of Hamburg are shown in abbreviated form since the position of the event has already been narrowed down has been. In contrast, additional tables would also be systems without digital ones Maps allow TMC messages to be presented in text form if these tables is saved in advance in the output device.

Figur 1

ein erstes Ausführungsbeispiel der Übertragung von TMC-Meldungen mit einer verketteten Mehrsequenz, in welcher zur genauen Lokalisierung des stattfindenden Ereignisses Geokoordinaten übertragen werden,

Figur 2

ein erstes Ausführungsbeispiel der Übertragung von TMC-Meldungen mit einer verketteten Mehrsequenz, in welchem zur genauen Lokalisierung des Ereignisses ein spezieller, detaillierter Locationscode übertragen wird, und

Figur 3

ein Blockbild, wie TMC-Meldungen nach den Figuren 1-2 von einem Radiosender ausgehend übertragen werden.

The invention is explained in more detail below in connection with three figures. Show it:

Figure 1

a first exemplary embodiment of the transmission of TMC messages with a concatenated multiple sequence in which geocoordinates are transmitted for the exact localization of the event taking place,

Figure 2

a first embodiment of the transmission of TMC messages with a concatenated multiple sequence, in which a special, detailed location code is transmitted for the exact localization of the event, and

Figure 3

a block diagram of how TMC messages according to Figures 1-2 are transmitted from a radio station.

In Figure 1 is an example of the referencing of a TMC message, as with the present invention is shown. In a first sequence S1 an event code EC with 11 bit length to describe an event and a Subsequent location code LC with the most precise possible localization of the location with a width of 16 bits. The possible event with the Event code EC to be communicated to a driver is e.g. B. an occupied parking garage, so "parking garage occupied". For example, this parking garage is located in a certain street in Hamburg, so it is first with the location code LC also transmit the general location information "Hamburg". In subsequent Sequences S2 and S3 become code words DL with a detailed location transfer. In the second sequence S2, for example, the first part of a defined geo-coordinate, e.g. B. the length of the location in which the parking garage is located be transferred. The third sequence S3 includes the second part of the Geocoordinate, e.g. B. the latitude, if in the sequence S2 before the longitude has been transferred.

Instead of transmitting two geocoordinates in sequences S2 and S3, it is possible in only one sequence S2 following sequence S1 a "compressed Georeference "to be transmitted With" compressed georeference "is one less precise geocoordinate is meant in the accuracy. B. a geo coordinate, in which there are no seconds.

The transmission of multiple sequences for detailed location, in which the Event takes place, however, is not based on specifying geocoordinates like this were explained in Figure 1 limited. Rather, referencing can also done in other ways, e.g. B. by predetermined, special location tables. This is explained using FIG. 2. In the first sequence S1 again transmit the data, as explained in connection with FIG. 1, So an event code to describe the event with 11 bits and a subsequent one Location code with the most precise possible localization of the location, with 16 bit width. Then a second sequence (or several sequences) S2 transmitted in which a special location code for referencing is transferred to a given sub-table. The sub-table can e.g. B. be stored in the car radio within the motor vehicle and, if sufficient large data storage, an abundance of precisely defined locations included, such as B. also the location of certain streets in cities. A location code then only has to be transmitted in the second sequence S2 that points to a specific address in this subtable where the previously mentioned street in Hamburg, where the parking garage is located, is saved.

In Figure 3, the individual components are shown schematically, which for the Transmission of the above TMC messages are necessary. Of a Radio stations 10 are made via a transmission link 12 (in general FM radio) to RDS receiving devices 14 which transmit TMC messages. The RDS receiving device 14 extracts from the transmitted information the TMC data 18, which are evaluated in a TMC interpreter 20 and be decoded. For this, the TMC interpreter 20 has a data memory 30 connected. Tables are stored in this data memory 30, the one Assignment of the received codes, i.e. event codes, location code and if necessary special location codes, event descriptions and locations allow. After the TMC interpreter 20, the events via the data memory 30 and locations has been evaluated, these in turn are stored in a data store 40 filed and an output device that a navigation device 50 or another output device 60 is output. The navigation device 50 stands for this or the other output device 60 via lines 52 to the data memory 40 and a control device not shown in FIG. 3 in connection.

LIST OF REFERENCE NUMBERS

10

radio stations

12

transmission path

14

RDS decoder

18

TMC data

20

TMC interpreter

30

data storage

40

data storage

50

navigation device

52

connecting line

60

Output unit (without navigation)

DL

detailed location

EC

event code

LC

Location code

LCD

detailed location code

S1, S2, S3

sequences

Claims (7)

Method for transmitting coded TMC (traffic message channel) messages in a message transmission system, characterized in that concatenated multi-sequence messages are sent, an event code (EC) for describing an event and a location code ( LC) with an indication of the area of a location in which the event to be reported takes place and a detailed localization (DL) of the location is transmitted in at least one subsequent sequence (S2, S3). Method according to claim 1, characterized in that in a subsequent sequence (S2, S3 ...) a geo-reference is transmitted to the location in which the event to be reported takes place. Method according to claim 2, characterized in that the georeference is transmitted in two subsequent sequences (S2, S3) by the geographical longitude or latitude of the location in a first subsequent sequence (S2) and the in a second subsequent sequence (S3) latitude or longitude of the location is transmitted. Method according to Claim 1, characterized in that a location code (LC) which is detailed in comparison to the location code (LC) transmitted in the first sequence (S1) and which is used for referencing an address in a predetermined sequence is transmitted in a subsequent sequence (S2) Sub-table refers, a large number of localization data being stored in the sub-table, and the address at which the exact data about the location can be called up. Device for dispensing received according to one of claims 1 to 4 Messages in the TMC standard with a TMC interpreter (20) for receiving and decoding the multiple sequences transmitted in the TMC standard (S1, S2, S3 ...), with a data memory (40) in which the decoded TMC messages are storable, and with an output unit (50, 60), which with the Data memory (40) is coupled and through which the decoded TMC messages are spendable. Apparatus according to claim 5, characterized in that the output unit is a navigation device (50), in particular in motor vehicles. Device according to Claim 5, characterized in that the output unit (60) is prepared for outputting voice and / or text messages which symbolize the TMC messages.

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