DE4441789C1 - Data recognition system for noisy radio data signal - Google Patents

Abstract

The data recognition system is used to identify a cyclically repeating data bit sequence in the received radio data signal (RDS), by evaluation of a section of the received data stream covering a number of cycles. The static evaluation provides the individual bit positions of the evaluated cycle, the corresponding bit sequence evaluated using a radio data signal block identification algorithm, to identify the radio data blocks. Pref. each bit position of the evaluated cycle is assigned a value of '0' when less than half of the examined cycles have a value of '1' at this bit position and a value of '1' when more than half the examined cycles have a value of '1' at this bit position.

Description

The present invention relates to a method for recognizing as a bit sequence existing, cyclically repeated data in an overall non-cyclical repeated, especially disturbed, radio data system (RDS) signal.

It is known from averaging over periodically recurring signal values filter out the statistically occurring disturbances that occur periodically, which creates an undisturbed or at least a less disturbed signal, cf. Kress, Dieter; Irmer, Ralf: Applied Systems Theory: Continuous and discrete-time signal processing; R.Oldenburger Verlag 1990, pp. 243 and 244.

RDS broadcast receivers have the option of deteriorating received signal of a certain frequency automatically to an alternative Switch the frequency of the set radio station. The associated alternative frequencies of a set radio station are Data stream transmitted and stored by the radio receiver. Since all Broadcast frequencies are different at different places these days Broadcast stations must be assigned before switching to a Alternative frequency are checked whether the alternative frequency actually the same radio station is broadcasting, i.e. the same radio program can be received. This is usually done by trial switching the radio receiver to the Alternative frequency and subsequent evaluation of the in the transmitted RDS Data flow contained program identification (PI) codes reached.

In practical operation, situations often arise in which the quality of the received signals deteriorated and a potential alternative frequency already is receivable, but the reception quality is still so low that its RDS Signal cannot be evaluated. Although here the subjective hearing quality on the alternative frequency can already be better than that of the set frequency the device does not switch to the new frequency because of a check of the PI code is not possible due to the non-evaluable RDS signal.  

An improvement in this situation can be achieved by: The RDS decoder snaps into place and a CRC check may not be necessary becomes. Since the PI code searched is from the received on the set frequency and stored RDS data is known, it can be stored as a bit pattern directly in the RDS Data stream are searched. However, this procedure fails when the signal is relatively severely disturbed on the alternative frequency, because then the Usually consisting of 16 bits, PI code not in one piece as a bit pattern can be received.

The invention is therefore based on the object, the method of the aforementioned Kind in such a way that a recognition of the data even with more disturbed RDS signal is possible.

This object is achieved in that a multiple cycles containing part of the data stream examined and a statistical evaluation of the individual bit positions of the cycle under consideration 'is made, and that the searched data can be derived from the result of the statistical evaluation.

The invention makes use of the knowledge that the RDS data in the RDS Data stream can be repeated cyclically. For example, the PI code is in each RDS group transmitted so that, for example, at a bit frequency of the RDS Data stream of 1187.5 Hz and a group length of 104 bits in the A block arranged PI code is transmitted about 11 times per second.

Even if each of the transmitted A blocks is due to random bit errors due to the bad reception quality becomes invalid, it is very unlikely that the same bits of the A block are always affected by the fault. One examines now the data stream over a longer period of time, so that several RDS groups can be detected by statistical evaluation of the individual bit positions original information is restored, at least as long as the bit Number of errors is less than 50%. The statistical evaluation means that original bit sequence, from which the sought PI code is then extracted can. This enables the PI code to be verified and the radio receiver to use the new one Frequency can be switched.

The method according to the invention has the advantage that an evaluation of the RDS Signal is possible even at low field strengths. Among other things, this means that the radio receiver has a larger number of verified Alternative frequencies are available, to which switching can take place. In addition, information about new alternative frequencies is available earlier  Available. Overall, the reception quality of the Broadcast receiver improved.  

Each bit position of the cycle under consideration is preferably assigned the value "0", if less than half of the cycles examined at this bit position Value "1" has been determined, and vice versa, each bit position becomes "1" assigned if more than half of the cycles examined on this bit Position of the value "1" was determined. This ensures that practically always one usable bit sequence is obtained. Of course, the required Percentage for a positive entry at the respective bit positions is also higher can be used to reduce the probability of errors.

The RDS data stream can preferably be used to carry out the statistical evaluation are shifted by a shift register, the length of which corresponds to the number of bit Positions of the considered cycle 'corresponds. Each bit position of the error register a counter is assigned, the counter reading of which is increased by "1" if after pushing through a number corresponding to the length of the shift register Bits at this bit position have the value "1". After pushing through n Cycles, the counters are evaluated. If a counter is at "0"; then the respective bit clearly "0" because it was "0" in all received cycles. As well the counter reading "n" means that the respective bit is clearly "1". In addition the counter readings between "0" and "n / 2" become the value "0" and the counter readings between "n / 2" and "n" assigned the value "1". As said before, can other limits can also be selected for the assignment of the meter readings.

The data you are looking for must now appear as a bit pattern in the statistical Evaluation received bit sequence be available. The data can be found after an embodiment of the invention by comparing the bit positions on the The desired bit pattern is present. This is for example by a simple moving and comparison process possible.

According to another embodiment of the invention, the statistical Evaluation of the resulting bit sequence of the cycle in question 'an RDS Block detection algorithm are subjected to one of the searched data containing data block in the bit sequence of the cycle under consideration ' to determine its bit sequence. For example, the A block, which consists of the PI code with 16 bits and the CRC code with 10 bits exists, detects and then the PI code can be determined from it. By doing this the error rate of the procedure is reduced.  

In addition to using the method according to the invention for recognizing the PI Codes of a received broadcast signal can also be used to detect PTY (program type) data, PS (program service name) data and TP (traffic- Program) data can be used.

An embodiment variant of the method according to the invention is shown in FIG attached drawing explained.

The only figure shows a schematic Representation of a shift register with assigned counters.

In the variant shown, the shift register 1 has a length of 104 bits. Accordingly, 104 counters 2 are each assigned to a bit position of shift register 1 .

The received RDS signal is inserted according to the arrows 3 on one side into the shift register 1 and leaves it again on the other side. Once each 104 bits have been inserted into the shift register 1, is incremented for each "1" in the shift register 1 of the corresponding counter 2 to "1". After n RDS groups with 104 bits each have been shifted and examined by the shift register 1 in this way, the counter reading, which is represented in the drawing by a black, vertical bar 4 , is evaluated. If a counter has the status "0", then the respective bit is "0"<if it has the counter status n, then the respective bit is "1". With counter readings between "0" and "n / 2" the value "0" is assigned to the bit, with counter readings between "n / 2" and "n" the value "1".

The bit sequence 5 obtained in this way , which is shown as an example in the drawing below the counter 3 , is used for further evaluation. This means that the data sought are determined, for example, by checking the bit sequence 5 resulting from the counter readings for the presence of a specific bit pattern. Alternatively, the bit sequence 5 obtained from the counter readings can be subjected to an RDS block detection algorithm in order to detect a specific block which contains the searched data, for example the A block. If the searched block is recognized, its individual bit positions can be read out and the searched data can be obtained therefrom.

If the length of the shift register and thus the number of counters is increased, then In addition to the PI, TP and PTY codes, you can also add further information, such as the Program service can be obtained from a disturbed RDS signal.

Claims (8)

1. A method for the detection of a bit sequence, cyclically repeated data in a, in particular disturbed, radio data system (RDS) signal, characterized in that a part of the data stream containing several cycles is examined that a statistical evaluation of the individual bit positions of the cycle considered 'and that the resultant from the statistical evaluation of the bit sequence of the cycle under consideration' is subjected to an RDS block detection algorithm to at least one data block containing the searched data in the bit sequence of the cycle under consideration 'To recognize and determine its bit sequence. 2. The method according to claim 1, characterized, that each bit position of the cycle in question 'is assigned the value "0" if at less than half of the cycles examined at this bit position the value "1" was found and the value "1" if more than half of the examined Cycles at this bit position the value "1" was determined. 3. The method according to claim 1 or 2, characterized in that the RDS data stream is shifted by a shift register ( 1 ) with a number of bit positions corresponding to the cycle under consideration, and that a counter ( 2 ) is assigned to each bit position , whose counter reading is increased by "1" if, after a number of bits corresponding to the number of bit positions of the shift register ( 1 ) has been pushed through, the value "1" is present at this bit position. 4. The method according to any one of the preceding claims, characterized, that the bit sequence resulting from the statistical evaluation of the Cycle 'by comparing the bit positions for the presence of a particular bit Pattern is examined. 5. The method according to any one of the preceding claims, characterized, that the method for recognizing the program identification (PI) code of a received broadcast signal is used. 6. The method according to claim 5, characterized, that n RDS groups of 104 bits each are examined in particular. 7. The method according to claim 5 or 6, characterized, that this method is used to switch over to a test Alternative frequency to verify the PI code of the received radio station, especially without locking the RDS decoder and / or a CRC check perform. 8. The method according to any one of claims 1 to 4, characterized, that the method for recognizing the PTY (program type) data and / or PS (program service) data and / or the TP data is used.