DE102004055576A1 - Transmission method for traffic messages conforming to the TMC standard, in which both encrypted and unencrypted data are transmitted over the same data channel - Google Patents

Abstract

Method for transfer of coded traffic messages over a data channel that can be used for the transfer of traffic massages, whereby the data is transferred in at least two parts, i.e. an encrypted and an unencrypted part. The unencrypted part contains a useful information content whether the first part contains encrypted traffic information or not. The invention also relates to a corresponding traffic message transmitter and traffic message receiver.

Description

The The invention relates to a method for broadcasting traffic reports and a radio receiver after the genus of independent claims out.

In DE 35 36 820 C2 and the ISO standards 14819-1, -2 and -3, a generic method for broadcasting encoded traffic messages is given. The TMC (Traffic Message Channel) method described there pursues the approach of standard traffic messages in their elementary components, specifically the location of an event, the direction of travel, the extent of the event and the actual event. To disassemble, to catalog these components and to assign the cataloged components of the traffic reports corresponding predetermined codes. Instead of the actual traffic reports, only the codes compiled in accordance with the message to be transmitted are transmitted. For example, particularly important points along important traffic routes, such as entrances and exits, petrol stations, rest areas, etc. along motorways are assigned so-called location codes. In a place table (location table) these place codes are each place names and also references to the place under consideration in the course preceding and subsequent places or their location codes specified. By transferring such a location code and a direction of travel, the location of a traffic-relevant event is thus fixed on a route section between two coded locations and a specific direction of travel. In order to provide only a limited address space for the location codes, various location tables are provided for different countries, with a specific country-specific location table being identifiable via an assigned location table number (LTN).

in the Radio become the transmitted codes on the basis of decoding tables stored there corresponding message components assigned and then shown on the display or in voice messages via speech synthesis implemented and over the connected speakers are output.

These TMC traffic reports are for example by means of the so-called Radio Data System (RDS), which is specified for example in DIN / EN 50 067, inaudible in addition to a radio program about a Broadcast frequency.

RDS-TMC is currently implemented in two variants throughout Europe. On the one hand as a free service that is receivable in much of Europe on the other hand as a payment service (Pay-TMC or Conditional Access (CA)), the u. A. in France, Great Britain and partly in Germany is offered. This service is often used by private service providers to disposal and requires special software in the receivers, so these are the encrypted ones Can decode traffic announcements. The providers require that for every device that can decode CA, a certain fee from the terminal manufacturers is paid to the provider.

Task and Advantages of the invention

There some of the information about TMC is provided by the police for free security-relevant service is provided, is now especially from the European Ministries of Transport the demand in the room, that in the future CA providers also transmit certain messages to end devices and users free of charge or available should make. Since this is currently not possible due to systemic reasons - there are either free TMC or CA, but not a mix of both - must have one solution being found.

A In itself legend and preferred solution by the CA providers would be that the ministries only all terminal equipment manufacturers have to commit CA in their devices offer. With that could all devices all and thus also the above-mentioned CA-TMC traffic reports received and decode. That would however, mean that the terminal manufacturers also automatically for all terminals Would have to pay licenses to the CA provider. This solution is however, from the point of view of terminal manufacturers as well as the user, the extra charge for CA capability of the terminals ultimately would have to pay unacceptable.

The present invention solves the above task with a different approach.

Of the The core here is that within a transmission channel, the one for transmission conditional access information that is usually encrypted, additionally generally accessible unencrypted Transfer information. The recipient is trained in the amount of incoming information or messages to recognize those who transmit unencrypted and then evaluate them selectively while encrypted messages be ignored.

Preferably the receiver attacks while not recognizing unencrypted messages encrypted Notification components that provide a direct or indirect indication on whether it is the current incoming messages encrypted or unencrypted Messages is.

a indirect notice in the case of TMC traffic news for example the event codes, because namely in the standard each cataloged traffic event one of several potential Urgencies is assigned. In the case of TMC traffic reports, it is proposed here particularly urgent (x-urgent) cataloged messages, such as information about wrong-way drivers on highways, basically unencrypted transferred to. The recipient can then determine if it is by analyzing the event code is a message of particular urgency or not and for the case of a particularly urgent report, of which assume that they are transmitted unencrypted has been.

There for the currently running CA-RDS-TMC, only the location codes for traffic events encrypted transfer can, can in the case of special urgent messages, ie those with one appropriate event code, which is cataloged as particularly urgent is that transferred Location codes without further decryption be used. In the case of encrypted location codes, however be this and the associated other message components ignored because the re-use encrypted Location codes without decryption lead to false reports would.

detailed Description of a preferred embodiment

The The invention will be described below using the example of RDS-TMC traffic reports described. in principle let yourself However, the invention also applies to other broadcasting standards, such as digital broadcasting (DAB - digital audio broadcasting, DMB - digital multimedia broadcasting, DVB - digital video broadcasting, etc.) or other transmission methods such as mobile transfer (GSM - global system for mobile communication, UMTS etc.) and others.

The structure of the radio data signal, hereinafter RDS signal, as well as the coded TMC traffic information transmitted with it will be explained below 1 explained in more detail.

The RDS signal 1 consists of a sequence of data blocks 10 , which are also referred to as groups together. Every group 10 consists of four blocks 11 . 12 . 13 . 14 each 26 bits, of which the first 16 bits 15 are available for the actual payload, while the remaining 10 bits 16 the transmission of redundancy information for error detection and correction (checkword) and the synchronization of the receiver (offset) are used. To transfer different types of information different group types are provided. To identify the respective group type, a group type code (GT) is used 21 which includes the first four bits X15, X14, X13 and X12 of the second block of each group. Furthermore, a version bit (B0) 22 , the fifth bit X11 of the second group. The combination 20 Group type identifier and version bit B0 are used to identify a group type by a narrower meaning. A particularly important date of the RDS signal, which for this reason is also transmitted in each group in the first block, is the Program Identification Code (PI). 15 , This serves for the unambiguous identification of a specific radio program and for this purpose comprises a country code which indicates the location of the transmitter and the actual program identifier which denotes a specific radio program, such as the third program of the South West German Broadcasting Corporation (SWR). A detailed description of the Radio Data System (RDS) can be found, for example, in DIN EN 50 067.

• – der Ort des Geschehens, location 31, für den die 16 Bit Z15-Z0 des letzten Blocks zu Verfügung stehen,
• – die Art des Verkehrsereignisses, event 32, z.B. Stau, zähfließender Verkehr, Sperrung usw., zu dessen Codierung die letzten 11 Bit des dritten Blocks reserviert sind,
• – die Ausdehnung des Ereignisses, extent 33, gemessen in der Zahl von locations, über die sich das Ereignis bzw. die daraus resultierende Verkehrsstörung erstreckt, umfassend die Bits Y13, Y12 und Y11 des dritten Blocks sowie
• – ein Bit Y14 des dritten Blocks zur Codierung der Fahrtrichtung (+/–) 34.

In 1 is exemplified a group of the type 8A, ie with GT 8, version A shown. This group is for the transmission of coded TMC traffic reports according to the mentioned standard ISO 14819-1, -2, -3. The essential components of such a TMC traffic announcement are included

• - the place of action, location 31 for which the 16-bit Z15-Z0 of the last block is available,
• - the type of traffic event, event 32 eg congestion, congested traffic, blocking, etc., for the coding of which the last 11 bits of the third block are reserved,
• - the extent of the event, extent 33 measured in the number of locations over which the event or the consequent traffic disturbance extends, comprising the bits of the third block as well as Y13, Y12 and Y11
• A bit Y14 of the third block for coding the direction of travel (+/-) 34 ,

The example of 1 shows a so-called single-sequence message, ie a traffic message, which is transmitted with a single group of the RDS signal. In this case, the bit 35 On the other hand, there are also multi-sequence messages in the event that the capacity of a single group 8A of the RDS signal is insufficient to transmit a traffic message drawing such multi-sequence messages is the bit 35 A detailed description can be found in ISO 14819-1, -2 and 3. In addition, there are also multi-sequence messages which can be found, for example, in ISO 14819-1, -2, -3 are explained.

Because information other than the actual TMC traffic messages can be transmitted in 8A groups, type 3AA groups are preceded by type 3A groups in the RDS data stream (TMC traffic reports). 2 ). These are included in the fourth block 14 a so-called application identifier (Application ID, AID) 41 , which indicates which type of information is transmitted in the following groups of type 8A, in this case TMC messages. Furthermore, these contain a location table number (LTN) 42 which indicates which of a plurality of possible location tables has been used for the coding of the event locations on the transmitter side and, logically, should also be used on the receiver side for decoding the location codes. Different location tables are for example to allow the coding of places in several countries, ie for Germany there is a first, France a second, etc. place table.

Finally, the standard also provides for groups of type 8A in which management information (ADMIN 8A) is transmitted. These differ from the groups of the type "8A" carrying the actual traffic reports by the bit "T" 36 , which in the case of a management group has the value "1", in the case of traffic announcement groups, however, the value "0".

to Decoding of these TMC messages according to ALERT C standard, such as described in the above standards ISO 14819-1, -2 and -3, must first land and the valid location table be identified. The LTN (Location Table Number) serves this purpose together with the program identification (PI) code of the sender. From this two information can be accurately determined in which country you are and which LTN currently in use is. This allows each free TMC service to be uniquely identified and decoded become.

Of the Standard became later backward compatible expanded to allow Conditional Access TMC. This is in group 3A instead of the valid LTN the code 0 (zero) transmitted, which was defined as "undefined" in the old standard. A device after old standard can do nothing with this code and ignored the CA-TMC traffic messages included in the following Type 8A groups. One recognizes CA-TMC traffic reports based on reception the LTN "0" that the service encrypted Traffic reports transmits. The encoding The traffic information is transmitted on the transmitter side via a encoding the location codes according to one of several possible regulations.

To decrypt these encrypted location codes on the receiver side, a special 8A group ( 3 ) first the actual LTN (before encryption) 51 which can usually be the same number as for the free TMC service. Furthermore, a decryption key number (encryption ID ENCID) 52 transmitted in a receiver-side decryption table ( 4 , Reference number 60 ) one of several decryption rules to apply 61 designated. The decryption table 60 is available to all end-user manufacturers who pay appropriate licenses to use CA-TMC to the service provider. By applying the correct decryption rule, the encrypted received location codes can be assigned the correct location codes, which can then be assigned to places by means of the location table.

The solution is that at least certain, namely particularly urgent messages that are marked as X-Urgent in the event (event) catalog (eg: Ghost driver, danger notifications, people, animals and objects on the road), in principle always as free Messages must be made available. That would also meet the demands of the ministries of transport. These messages must always be with unencrypted location codes 31 be transmitted. Since future receivers can also detect LTN 0 and in the corresponding group 8A also the correct LTNBE (before encryption) 51 can read, which, as already mentioned, is usually identical to the usual national LTN, then the message can be received correctly because the code is present in unencrypted form and the otherwise required decryption table with the keys is not necessary and therefore no license costs for Conditional Access TMC must be paid.

In addition is in the RDS-TMC standard still defines that using a additional labels the "default urgency", ie the default Urgency of a message changed, here especially increased, (see EN ISO 14819-1, Chapter 5.5.3, Label 1, Code 0). With this possibility can even messages with normal urgency converted to X-Urgent be and according to the invention with unencrypted Transfer location code become.

5 shows an arrangement of radio transmitter 100 and radio receivers 200 for carrying out the method according to the invention.

The transmitter 100 basically encodes traffic messages according to your conditional access (CA) procedure. This means that for traffic events, which are not assigned the highest priority in the event catalog, the associated event, for example accident location, is coded with an encrypted location code. In the case of traffic events, however, in which the event catalog is assigned the highest priority, the event location is encoded unencrypted on the basis of the location table.

The thus coded traffic reports are in accordance with the known CA-TMC method as a broadcast signal 110 broadcast. This means that, on the one hand, an RDS group 3A with the location table number (LTN) "0" and, further, a group 8A according to FIG 3 with the unencrypted location table (LTNBE) and the decryption identification number (ENCID) as well as another group 8A with the event code (event), the direction of travel (+/-) and your location code (Location). In the case of a particularly urgent message, which is assigned the default urgency "x-urgent" in the event catalog, the transmitted location code is unencrypted, but in the case of lower urgency it is encrypted.

The recipient 200 receives this from the sender 100 broadcast radio signal 110 containing encrypted (CA) TMC traffic messages via an antenna 210 , In a subsequent receiving section 220 , which is well known and therefore not described here, the broadcast signal is demodulated and isolated the RDS signal. Out of this, in a subsequent RDS demodulator 230 the actual RDS information, here in particular the TMC information, won. These in turn will be in a downstream processor 240 processed.

The processor 240 analyzes a group 3A obtained from the RDS signal to see if it contains the LTN "0", and if so, the received broadcast signal is one containing TMC traffic messages according to the conditional access procedure whereas Group 3A obtained a different LTN, it is not a CA-TMC signal but a freely accessible, unencrypted TMC signal.

In the latter case, ie when unencrypted TMC traffic messages are received, they can be decoded and output conventionally ( 260 ) or weiterweit processed, for example, be taken into account in a driving route calculation in a vehicle navigation system.

In the former case, ie when encrypted CA-TMC traffic messages are received, the location table number (LTNBE) is changed from a subsequent management group 8A of the RDS signal. 51 won.

In the subsequent groups 8A, the event code becomes respectively 32 and then evaluate to see if the associated event is a normal, low, or high-priority (x-urgent) event. If it is an event of less than high urgency, the processor goes 240 assuming that the associated location code of this message has been transmitted in encrypted form. Since using it without decryption would result in erroneous messages, the entire message is ignored.

If, on the other hand, it is an extremely urgent event, the processor can 240 assume that the associated location code has been transmitted unencrypted and evaluates this using the location table 250 whose number it obtained in the form of LTNBE beforehand, in a manner known per se, taking into account the country code of the PI code obtained from any group of the RDS signal. Likewise, the other message components, in particular direction and event are evaluated.

According to the development described above, even messages with standard low or normal urgency can be assigned the highest priority. For this purpose, a corresponding urgency increase bit (label 1) is set in the context of a multi-sequence message in a following group 8A. The processor 240 For this option, it is designed to evaluate this bit and to increase the urgency of the event. If the event then has the highest urgency, the processor again proceeds from an unencrypted location code and decodes the message in a known manner.

Claims (8)

A method of transmitting coded traffic information over a data channel reserved for transmitting encrypted traffic information, wherein a particular subset of traffic information is transmitted in unencrypted form over the data channel, with only one of at least two components of the traffic message being encrypted to encrypt the traffic information and wherein the unencrypted component is information contains or the unencrypted component is associated with information on whether the first part of the traffic message is encrypted. Method according to claim 1, characterized in that that information about the encryption of the first traffic message component from the content of the second Component indirectly. Method according to one of the preceding claims, characterized characterized in that the traffic announcements according to the TMC standard are coded and that the first part is the event location. Method according to claim 3, characterized that the traffic reports are coded according to the TMC standard and that information about the encryption of the first component from an event code as the second component results. Method according to claim 4, characterized in that that information about the encryption of the first component from an event code as the second component in conjunction with any existing urgency enhancement information for the second component. Traffic message transmitter for transmitting traffic reports according to one of the preceding claims. receiver for receiving according to one of claims 1 to 5 transmitted Traffic-news. A method of receiving according to any one of claims 1 to 5 transmitted coded traffic reports.