KR100504418B1 - Data processing method in wireless receiver - Google Patents

Abstract

The present invention relates to a method for processing data with a wireless receiver that evaluates Radio Data System (RDS) data and Traffic Message System (TMC) data. For this purpose, a time window is provided in the data stream, in which only data is processed, or RDS data and TMC data are processed together. The start of the time window may be indicated by a system message (sy).

Description

Data processing method in wireless receiver

The present invention relates to a method for processing data with a wireless receiver, according to the preamble of the independent claim.

BACKGROUND OF THE INVENTION Radio data systems (RDS) capable of carrying digital data in parallel with a radio broadcast program on one data channel are already known. In particular, the publication EN 50067 (1992) of the European Radio Broadcasting Union (EBU) specifies specifications for RDS for microwave radio broadcasting. A wireless receiver with a suitable RDS decoder can receive and decode transmitted data in addition to receiving wireless broadcast reception at the same receiver. 32 groups of 104 bits each are provided for data transmission. One predetermined service is assigned to each of the groups to be transmitted. Group 8a is currently provided for the transmission of a digitally coded, so-called Traffic Message System (TMC). The composition and encoding of the TMC message is described in CEN-Draft Pr. Established in ENV / 278/4/1/0011, this is based on the November 1990 specification proposal published by the RDS Alert Consortium. The main elements of a traffic message are the location and event that occurred. The information is cataloged. That is, one unique code is assigned and corresponds to each traffic-related place and each traffic-related idea. The route appears when you connect the locations in the location table according to the roads that exist. In addition to conventional devices installed in a receiver with an RDS decoder, for use of the traffic message channel, there is a need for TMC devices that store, follow up, and output the traffic message. In addition to group 8a, which contains the original TMC data, variants of groups 1a and 3a of the RDS protocol are placed empty for TMC. By periodically transmitting groups 1a and 3a, general frame conditions are summarized for the evaluation of TMC data. In particular, it is specified which place table is the basis of the message information.

To use certain RDS functions, for example to check the alternate frequency for the transmitter just selected, the wireless receiver needs a period of 0.5-1.5 seconds. During this period no other RDS functions are available and no TMC messages are received. Thus, to use these functions, the wireless receiver must identify a time window in which no TMC message can come. Otherwise the message will be lost. So far no time window has been provided that does not have TMC data.

1 illustrates an existing receiver used to implement a data processing method according to the present invention.

2, 3 and 4 show an embodiment of a data processing method according to the present invention.

In contrast, the method according to the invention has the advantage that by means of the features mentioned in the independent claims it is possible to provide a time window long enough to be able to carry out uninterrupted data processing for complex functions, in particular RDS functions. .

Further advantages are obtained from the means of the dependent claims. The method according to the invention can be preferably used especially for RDS messages and TMC messages. For the processing of TMC data, periodic system messages for the TMC are sent. The system message can be used to simply determine whether only RDS data can be processed or RDS data and TMC data can be processed.

1 shows, in the form of a block diagram, a part of a radio receiver, advantageously part of a car radio, which is necessary for explaining the method according to the invention. Through the antenna 1 and the receiver (tuner) 2, microwave radio transmission is received in a conventional manner. The tuner 2 carries a multiplex signal MPX. The multiplex signal MPX includes an audible signal or audible signals for left and right channels in coded form in the case of stereo transmission. The multiplex signal MPX also includes a radio data signal modulated with a 57 kHz carrier, which is decoded at the decoder 3. The decoder 3 generates a data stream, which contains the RDS data and the TMC data contained therein.

The audible portion of the multiplex signal MPX is decoded in the stereo decoder 4. An audible amplifier 5 having two outputs 6 and 7 and two speakers 8 and 9 serves to reproduce an audible signal and includes an input 10 for adjusting the volume. The audible inputs of the audible amplifier 5 are connected to the output of the stereo decoder 4 on the one hand via the changeover switch 11 and to the auxiliary input 12 on the other hand. The auxiliary input 12 may be connected to a cassette reproducing apparatus or a CD reproducing apparatus.

The microcomputer 13 performs many functions in the radio receiver shown in the drawing. Above all, various information is displayed on the display 15. The decoder 3 also supplies an RDS signal to the microcomputer 13, which evaluates these signals and displays the information contained in the RDS signal on the display 15. The outputs of the microcomputer 13 are connected to the control input 10 of the audible amplifier 5 and the control input of the changeover switch 11. Thus, one of the audio signal sources can be selected and the volume can be adjusted via the keyboard 14.

2 shows a method for the processing of data generated by the decoder 3. The time axis is shown broken down into individual time windows by time points T0-T4. The time window between time points T0-T1 and T2-T3 is represented by RDS. This makes it possible to process only RDS data without TMC data within the time window. The time window between the time points T1-T2 and T3-T4 is represented by TMC, thereby clarifying that TMC data can be processed within the time window. However, other RDS signals may be processed within the time window. However, within this time window, the wireless receiver cannot take advantage of the very complex RDS functionality that makes it impossible for the wireless receiver to process TMC signals during this time. The complex RDS feature here refers specifically to the RDS feature, which allows you to check the alternate transmit frequency for the just-tuned transmitter. In other words, when using this function, TMC data is no longer received. Doing so results in the loss of that TMC data. The wireless receiver can use such functions only in the time window in which only RDS data is received without TMC data. 3 and 4 show two ways in which the TMC time window or the RDS time window can be defined.

The time axis shown in FIG. 3 is subdivided into three time intervals by time points T5-T8. In the embodiment, it is assumed that only the RDS signal is received in the first time window T5-T6. However, any other data can be received during the first time window between time points T5-T6. For the evaluation of TMC signals, system messages are sent periodically at predetermined intervals, for example several seconds apart. The system messages contain data important for evaluating subsequent TMC data, for example data relating to which table the TMC data is interpreted using. The transmission of such a system message here is represented by the time interval between time points T6-T7. For simplicity, the system message is denoted by SY in FIG. 3. In this case the system message is a single group of 104 bits. Therefore, it is represented here as a time interval SY of an exaggerated width. The system message defines one bit indicating whether a subsequent time window, represented by time points T7-T8, will be a TMC time window or an RDS time window. The maximum duration of one time window is determined by the interval of SY. The TMC time window can process RDS data as well as TMC data. However, during this time window, complex RDS features that would interfere with the reception of TMC data are not used. However, if the corresponding bit in the system message makes it clear that this time window should only be used for RDS messages, then it is possible to interrupt other pickup or processing of other data for a period not exceeding the length of this time window. Complex RDS functions, such as checking for alternative transmission frequencies, can also be used.

In Figure 3 the method according to the invention is described using RDS data and TMC data. However, the method according to the invention can be used at any time when it is necessary to process the first type of data and the second type of data. However, specific time windows should be specified for only one type of data processing. This is particularly the case when data of the first type requiring significantly complex processing steps are transmitted mixed with data of the second type which should always be received if possible.

Since system messages are transmitted in a fixed time slot pattern, the end of each time window can also be calculated. Therefore, transmission errors can be compensated for. This is particularly advantageous if the TMC time window is always replaced with the RDS time window, as shown in FIG. In this case the receiver can be synchronized for replacement, thereby making the receiver insensitive to transmission errors in the system message SY.

4 illustrates another embodiment of the present invention. The illustrated time axis is further subdivided into several time intervals by time points t9-t13. The first time interval between time points t9-t10 can be used for any data. Between the time points t10-t11, again with respect to the TMC, a system message sy containing basic information is sent. Unlike in FIG. 3, however, no bit is provided for this system message indicating which data the subsequent time windows contain. This information is determined depending on whether TMC data and RDS data or only RDS data enter the scan time window following the system message between time points t11-t12. If the TMC data and optionally RDS data are also received in the scan time window, this is signaled through the inclusion of other TMC data and RDS data in the time intervals t12 to t13 remaining in the time windows t11 to t13. do. However, in the time intervals t12-t13 no complex RDS functions that interfere with the processing or pick-up of TMC data should be used. This technique is represented by displaying the TMC in the time windows t12-t13 on the time axis. However, if only RDS data is entered in the scan time window t11-t12 following the system message sy (see the indication below the time base), only RDS data (see the indication below the time base) is allowed for the subsequent time intervals t12-t13. The receiving wireless receiver thus knows that he can use complex RDS functions, such as checking for alternative transmitter frequencies in time windows t12-t13, without risk of losing TMC data. Accordingly, the method shown in FIGS. 3 and 4 enables to define a TMC time window (ie, a time window in which TMC data and RDS data are processed) and an RDS time window (ie, a time window in which only RDS data is processed). . In this case, the TMC time window may be further subdivided into a second time interval in which only RDS data different from the first time interval in which TMC data is transmitted are transmitted and evaluated. At this time, the corresponding TMC time window or RDS time window may be arbitrarily arranged. This method is particularly simple when the TMC time window and the RDS time window are alternating. Periodic replacement of the RDS time window or the TMC time window allows the receiver to calculate the sequence and start code of the individual time window even in the case of signals that are interfered by transmission errors after synchronization is complete.

5 illustrates another embodiment of the present invention. The illustrated time axis is subdivided into several time intervals by time points t14-t19. The first time interval between time points t14-t15 can be used for any data. Between time points t15-t16 a system message sy containing basic information about the TMC is transmitted. However, unlike FIG. 3, no bit is provided for this system message indicating which data the subsequent time window contains. In subsequent time windows, only TMC data with the same content is transmitted. Once this TMC data has been received correctly at t17, the remaining durations t17-t18 can be used for complex RDS functions.

Claims (2)

A method of processing data using a wireless receiver having a receiver, a wireless data signal decoder, and a playback device for speech signals, the wireless data signal decoder providing a data stream of RDS data, the data stream comprising a time window. The data stream includes a first type of data and a second type of data, and a time window for processing only the first type of data is provided. Only RDS data is provided for the first type of data without TMC data, TMC data and RDS data are provided for the second type of data, and the basic for processing of subsequent TMC data for the TMC data. System messages containing information are sent periodically, The system message includes data indicating whether a subsequent time window of the data stream contains only RDS data or RDS data and TMC data. A method of processing data using a wireless receiver having a receiver and a wireless data signal decoder and a reproducing apparatus for an audio signal, the wireless data signal decoder providing a data stream of RDS data, the data stream comprising a time window The data stream includes a first type of data and a second type of data, and a time window for processing only the first type of data is provided. Only RDS data is provided for the first type of data without TMC data, TMC data and RDS data are provided for the second type of data, and basic for processing of subsequent TMC data for the TMC data. System messages containing information are sent periodically, A polling time window and a subsequent time window are provided following the system message, If only RDS data appears in the scan time window, then a subsequent time window is provided only for processing the RDS data.