JP3892047B2 - Method of data processing by broadcast receiver - Google Patents

Description

TECHNICAL FIELD The present invention relates to a method for processing data by a broadcast receiver according to the independent claim.
As a result, a radio data system (RDS) capable of transmitting digital data in one data channel in parallel with a broadcast program program is already known. The RDS specification for UKW ultrashort radio radio is defined in the European Broadcasting Union (EBU) publication EN 50067, 1992. A broadcast receiver having an appropriate RDS decoder can receive and decode transmitted data in addition to receiving broadcasts by the same receiver. For data transmission, 32 groups addressed to 104 bits each are provided. One predetermined service is assigned to each of the groups transmitted here. Group 8a is presently provided for the transmission of so-called traffic messages digitally encoded (Traffic Message System; TMS). The structure and coding of the TMS message is CEN-Draft Pr. EN / 278/4/1/0011, which is based on the November 1990 standard proposal published by RDS Alert Consortium. The main elements of a traffic message are the place of occurrence (location) and the event (event). The message information content is cataloged, i.e., one unique code is assigned and associated with each traffic related location and each traffic related event. The joining and connection of places in the place table along the existing road represent the route and the state of progress. In addition to the normal equipment mechanism of the receiver equipment having an RDS decoder, a TMC device is required to store, post-process and output traffic messages in order to use the traffic message channel. In addition to the group 8a including the original TMC data, variations of the RDS protocol groups 1a and 3a are set free for the TMC. General frame conditions for evaluating TMC data are prepared by the groups 1a and 3a transmitted periodically. In particular, it is specified which location table is the basis of the message information.
In order to use and maintain a given RDS function, for example, to check an alternative frequency for the transmitter that has just been selected, the broadcast receiver takes a period of the order of 0.5 to 1.5 s. During this period, other RDS functions cannot be used and TMC information cannot be received. In order to use and maintain this function, the broadcast receiver must therefore identify a time window during which TMC information cannot enter. That is because otherwise the information will be lost. Until now, there was no time window without TMC data.
Advantages of the Invention The method according to the invention has the following advantages due to the features of the independent claims, ie, to perform data processing that is not complicated and time-consuming, in particular RDS functions are not disturbed. Has the advantage that a sufficiently long time window can be provided.
Further advantages are obtained by means of the subclaims. The method according to the invention can be used particularly advantageously for RDS- and TMC information. Periodic system messages for TMC are transmitted for processing of TMC data. The system message can be used to easily determine whether only RDS data or only RDS data and TMC data can be processed.
Drawings Embodiments of the invention are shown in the drawings and will be described in detail in the following description. FIG. 1 shows a known broadcast receiver in which the method of the invention can be implemented. 2, 3 and 4 show an embodiment of the method of the invention for processing data.
FIG. 1 shows, in the form of a block connection diagram, the part of the broadcast receiver, preferably the car radio part, necessary for the description of the method of the invention. Through the antenna 1 and the receiving unit (tuner) 2, the UKW ultra high frequency transmitter is received in a known manner. The tuner 2 sends out a multiplex signal MPX, which includes audible signals or audible signals for the left and right channels in coded form for stereo transmission. Further, the multiplexed signal MPX has a wireless data signal modulated by 57 KHz-carrier wave, and the wireless data signal is decoded by the decoder 3. The decoder 3 generates a data stream, which includes RDS data and TMC data contained therein.
The audible component of the multiplexed signal MPX is decoded by the stereo decoder 4. An audio audible amplifier 5 having two final output stages 6, 7 and two speakers 8, 9 is used for the reproduction of audible signals and has an input 10 for adjusting the volume. The audio audible input side of the audio audible amplifier 5 is connected to the output side of the stereo decoder 4 on the one hand via the changeover switch 11 and can be connected to the auxiliary input side 12 on the other hand. Alternatively, a CD-playback device can be connected.
The microcomputer 13 performs a number of functions in the illustrated broadcast receiver. In particular, various information is displayed on the pointing device (display) 15. Further, the decoder 3 supplies an RDS signal to the microcomputer 13, which evaluates the RDS signal and visualizes information contained in the RDS signal on the display 15. The output side of the microprocessor 13 is connected to the control input side 30 of the audio audible amplifier 5 and the control input side of the changeover switch 11. Thus, one of the audio audible signal sources can be selected via the keyboard 14 and the volume can be adjusted.
FIG. 2 shows a method for the processing of the decoder. The time axis subdivided into individual time windows by the time points T0 to T4 is plotted. The RDS is written in the time window between the time points T0 to T1 and T2 to T3, thereby clearly indicating that only the RDS data is processed without the TMC data within the time window. Time points T1 to T2 or T3 to T4 are indicated by TMC. As a result, it has been clarified that TMC data can be processed within the time window. Other RDS signals can also be processed within that time window. Within the time window, the broadcast receiver does not make use of the extremely complex or time consuming RDS function, and the remarkably complex or time consuming RDS function impairs the processing of the TMC signal. It is what makes it possible. In particular, it comes to the RDS function that makes it possible to check alternative transmission frequencies for broadcast receivers that have just been adjusted. However, in using the function, the TMC data is no longer received, and the corresponding TMC data will be lost. Such a function may only be used in the following time windows depending on the broadcast receiver, i.e. only in a time window in which only RDS data is received without TMC data. 3 and 4 show two schemes in which one TMC time window or one RDS time window can be set.
FIG. 3 also shows a time axis, which is divided into three time interval time spans by time points T5 to T8. In the first time window T5 to T6, only RDS data is received according to the case base. However, any other data may be received for the first time window from T5 to T6. For evaluation of the TMC signal, system messages are periodically transmitted at predetermined intervals, for example, intervals of several seconds. The system message includes data important for the evaluation of subsequent TMC data, for example, data relating to which table is to be interpreted as TMC data. The transmission of such a system message is shown here in the time interval time span between times T6 and T7. For simplicity, the system message is represented as SY in FIG. Here, the system message is a single group of 104 bits, and thus the time interval time span SY with an exaggerated width is shown. By the way, one bit indicating the following is specified in the system message, that is, the subsequent time window represented by the time points T7 to T8 is formed as the RDS time window, or the TMC time. One bit is specified that indicates whether the window is formed. The maximum duration of one time window is defined by the SY interval. In the case of one TMC time window, not only TMC data but also RDS data can be processed. However, a complicated or time-consuming RDS function that may block the processing of TMC data during the time window is not used. However, if the corresponding bit in the system message reveals that the time window should be used exclusively for RDS information only, complex and time-consuming RDS functions can be used. Use complex or time consuming RDS functions such as recording additional data for periods not exceeding the length of the time window, or checking other alternative transmission frequencies that block processing it can.
The method of the present invention has been described with reference to FIG. 3 for RDS data and TMC data. The method of the present invention can always be used in the following cases, i.e. whenever the first type of data and the second type of data are to be processed. Here, the predetermined time window must be reserved for the only type of data processing. This is especially true in the following cases: a first type of data that requires a very complicated and time-consuming processing step is a second type of data-which is received whenever possible. Must be mixed and transmitted.
Since system messages are sent in a fixed time pattern, the end of each time window can also be calculated. Therefore, transmission errors can be compensated. It is particularly advantageous if one TMC time window always alternates with one RDS time window as shown in FIG. The receiver is thereby robust against transmission errors in the system message SY.
FIG. 4 shows another embodiment of the present invention. Similarly, time points t9 to t13 are divided into a plurality of time interval time spans. The first time interval time span between times t9 and t10 can be used for any data as well. A system message SY including basic information regarding TMC is transmitted between time points t10 and t11. Unlike FIG. 3, the system message does not have a bit indicating what type of data the subsequent time window contains. The information is determined by the following: TMC data and RDS data, or only RDS data is received in the scanning time window following the system message. When TMC data and possibly additional RDS data come in within the scanning time window, this is signaled as follows, ie the time interval in the time window (t11 to t13) where it stays. It is signaled by including further TMC data and RDS data in the time span (t12 to t13). The said method is represented by the description content of the time windows t12 to t13 above the time axis. However, when only data comes in the scanning time windows t11 to t12 following the system message (see the description below the time axis), the RDS data (axis only) for the following time interval time spans t12 to t13. Only the description below) is allowed. Thus, the broadcast receiver knows that it can perform complex or time consuming RDS functions, such as alternative frequency checking, in the time windows t12-t13 without the risk of losing TMC. 3 and 4, the TMC-time window (in other words, TMC data and RDS data are processed in this time window) can be processed, and the RDS-time window (in other words, For example, in the time window, only RDS data is processed). The TMC time window is further divided into a first time interval time span (in which individual TMC data is transmitted) and a second time interval time span (in which only RDS data is transmitted and evaluated). . The corresponding TMC- or RDS-time window can then be arbitrarily arranged. The method process is particularly simple if the TMC time window and the RDS time window are alternated. Due to the periodic alternation of the RDS- or TMC time window D, the receiver can calculate the sequence and start code of the individual time windows after synchronization even in the case of signals that have been disturbed by transmission errors.
FIG. 5 shows another embodiment of the present invention. The time axis also shown is divided into a plurality of time interval time spans at times t13 to t19. The first time interval time span between times t14 and t15 can also be used for arbitrary data. A system message SY including basic information on TMC is transmitted between times t15 and t16. Unlike FIG. 3, even in the case of the system message concerned, there is no bit indicating what kind of data the subsequent time window contains. Within the subsequent time window, only TMC data with the same content is included. If the TMC data is properly received at t17, the remaining durations t17-t18 can be used for the time-consuming RDS function.

Claims (2)

A method of performing data processing by a broadcast receiver, wherein the broadcast receiver includes a receiver, a wireless data signal-decoder, and a playback device for an audible signal, wherein the wireless data signal-decoder A data stream of RDS data can be transmitted from the data stream, and a time window is provided in the data stream, the data stream including a first type of data and a second type of data, and In the data processing method, a time window in which only the first type of data is processed is provided.
RDS data without TMC-data is provided for the first data type, RDS- and TMC data are provided for the second data type, and periodic system messages for TMC data are transmitted. The periodic system message contains basic information for the processing of subsequent TMC data, and the system message contains the following data, i.e. the subsequent window window of the data stream A method for performing data processing by a broadcast receiver, characterized in that it includes only RDS data or data indicating whether to include RDS data and TMC data. A method of performing data processing by a broadcast receiver, wherein the broadcast receiver includes a receiver, a wireless data signal-decoder, and a playback device for an audible signal, wherein the wireless data signal-decoder A data stream of RDS data can be sent out, and a time window is provided in the data stream, the data stream including a first type of data and a second type of data, and in which the first In the data processing method, which provides a time window in which only one type of data is processed,
RDS data without TMC-data is provided for the first data type, RDS- and TMC data are provided for the second data type, and periodic system messages for TMC data are transmitted. The periodic system message includes basic information for the processing of subsequent TMC data, and after the system message is provided one scan time window-and a subsequent scan time window, The subsequent scanning time window is provided exclusively for processing RDS data in the following case, that is, when only RDS data is generated within the scanning time window, only for processing RDS data. A method of performing data processing with a broadcast receiver, characterized in that it is provided.

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