WO2004002029A1

WO2004002029A1 - Assembly for recording the use of rds radio receivers

Info

Publication number: WO2004002029A1
Application number: PCT/EP2003/006434
Authority: WO
Inventors: Andreas Gall; Dieter BÖRNER
Original assignee: Andreas Gall; Boerner Dieter
Priority date: 2002-06-25
Filing date: 2003-06-18
Publication date: 2003-12-31
Also published as: AU2003246551A1

Abstract

The invention relates to an assembly for recording the use of radio receivers (2) that are designed to receive RDS data. Said assembly is characterised in that an RDS decoder (5) is connected to the HF receiver part (3) of the radio receiver (2), in particular the MPX output (11), in particular upstream of a stereo decoder that is optionally connected to the HF receiver part (3), said decoder permitting the programme identification code (PI code) and the station identification of the transmitter to be decoded or determined from the RDS signal and that a transmission unit (8), preferably a GSM modem, radio unit, conductor track or similar is provided or connected to the RDS decoder (5), said unit transmitting the PI code or a station identification that is assigned to the transmitter having the PI code to a receiver (9), e.g. a recording and/or evaluation station, a server or similar.

Description

ARRANGEMENT FOR DETECTING THE USE OF RDS BROADCAST RECEIVERS

The invention relates to an arrangement according to the preamble of the claim

1. Such devices are used to record and statistically record the habits of radio listeners.

At certain intervals in Austria and in other countries, radio usage behavior is surveyed by means of continuous CATI (Computer Assisted Telephone Interview) telephone surveys of arbitrarily selected households. The market research data collected for the "radio test" form the basis for national media and marketing planning in the radio sector. The answers of the interviewed participants depend on a variety of influences, e.g. Stress, tiredness, order of the stations mentioned by the interviewer etc. For this reason, both radio broadcasters and media planners complain that these range numbers are not up-to-date and too imprecise.

The aim of the invention is to remedy this. This is achieved with an arrangement of the type mentioned with the features stated in the characterizing part of claim 1. The arrangement according to the invention provides more reliable data, which is more precisely and broadly supported and which is also available more quickly and thus considerably reduce the effort required for the collection and evaluation. An essential component of the arrangement according to the invention is the RDS decoder, which can be connected to any radio receiver, including car radios, or can be installed or connected in the factory or by the user. The arrangement according to the invention takes advantage of the fact that every radio station worldwide has an unmistakable unique identification number (unique ID), i.e. the so-called PI code. This code is transmitted in the MPX radio signal at the same time as the audio data. As soon as the radio receiver or the radio is switched on, or the frequency is changed and an RDS decodable signal is received, the RDS decoder becomes active and filters the identification number (PI code) of the transmitter out of the received RDS data. If the date and time of switching on or off or switching over or silent are then determined, exact data relating to the listener behavior can be transmitted to the remote, in particular central receiving unit. The features of claims 2 and 5 are advantageously realized so that the listening nuances can be recorded exactly.

The features of claim 6 are advantageous in order to inform the central receiving unit which device or which tested person it is without having to know the name of the person. The interface provided according to claim 3 adapts the data signals from different terminals to the RDS decoder. The MPX signals containing the RDS data are transmitted to the RDS decoder via this interface. At the same time, the reception conditions specified or selected by the listener are transmitted via the interface to the microprocessor, ie signals are transmitted to the microprocessor regarding the switching on, off and switching over of the radio receiver or the switching off of the radio receiver, for example for listening to Sound carriers, for example CDs, cassettes, etc. A connection via an optocoupler is advantageously carried out in order to avoid mutual interference between the microprocessor and the radio receiver.

The RDS decoder uses a processor to filter out the PI code from the MPX signal, which is a unique station identifier of the corresponding transmitter. The time measuring device assigned to the RDS decoder determines the time of the operational changes of the radio receiver, which are specified by the user. The time measuring device can be assigned to this CPU or the microprocessor, which evaluates and / or stores all the information that is accumulating or arriving, as well as the respective time.

The features of claim 9 are advantageously realized; This data can be recorded by the microprocessor and can be used to draw conclusions about errors which may be communicated to the receiving unit. Such errors can e.g. Hardware problems or problems caused by poor reception of the desired programs. The microprocessor records the date and time for which a particular station is heard. This data is stored internally in a non-volatile memory. For this purpose, the features of claim 7 are advantageous. These features enable a large number of data to be transmitted to the central receiving unit to be transmitted in an ordered manner.

A GSM modem is advantageously provided in order to connect the microprocessor to the receiving station. If a certain amount of data has accumulated, the transmission unit, preferably formed by the GSM modem, can select the receiving station and transmit the data, in particular the PI code, together with the device identifier of the radio receiver used. Provision can be made for the data remaining in the radio receiver or in the memory of the microprocessor to be deleted after the transmission, in particular when a corresponding confirmation has been received by the receiving unit. For data transmission it is possible to use different ones

Arrangements assigned to radio receivers to assign different timeslots for sending the data so that these arrangements do not all transmit the started or stored data to the central receiving unit at the same time. Also regular data transmission at certain times can be provided. To check the data transmission, it can be provided that the receiving unit can use corresponding status information to check whether the respective arrangement or the RDS decoder and the microprocessor and the modem or the time measuring device are working correctly.

The invention is explained in more detail below with reference to the drawing. The drawing schematically shows the structure of an arrangement according to the invention and a receiving unit assigned to this arrangement.

The transmission signal emitted by a radio transmitter, in particular an FM transmission signal, is received by an antenna 1 of a radio receiver 2 and fed to a receiving part 3. The receiving part 3 has the corresponding operating devices, which enable the user of the radio device 2 to select a transmitter and / or to adjust the volume, etc. A PI scanner 4 is connected to the MPX output 11 of the receiving part 3 via an interface 17, said PI scanner 4 comprising an RDS decoder 5 with a connected memory 18 and a microprocessor or a CPU 6. A clock module or a time measuring device 7 is assigned to the microprocessor 6. To transmit data from the RDS decoder or the CPU 6 to a central receiving unit 9, a transmission unit 8, preferably a GSM modem, is provided, which is connected to the receiving unit 9 via an antenna 10 via a data transmission path 19, e.g. Radio link, is connected. At least one server 14 can be provided in the receiving unit 9, which can receive, store and / or evaluate the data arriving at corresponding receiving parts or GSM receivers 13 of the receiving unit 9. The received data can be stored in a database 15, where they are available for further processing and evaluation. Via a service unit or unit 16 for remote diagnostics, the receiving unit 9 can connect to the PI scanners 4 via the radio link 19 and handle a function check and / or a service mode.

The PI scanner 4 is self-sufficient or can be supplied by the power supply part of the radio receiver 2. However, the PI scanner 4 advantageously has its own power supply.

It is advantageous if the PI scanner 4 has a sensor component 12 which monitors the behavior of the users of the radio device 2. Such a sensor 12 can, for example, monitor the actuation, in particular the switching on and off, of an ignition lock of a motor vehicle. In this case, the behavior of the person operating the motor vehicle with regard to the use of the radio 2 for the period of operation of the motor vehicle is determined. The sensor 12 could also be a motion sensor or light barrier installed in the room in which the radio receiver 2 is located, which detects the presence of people in the area of the Broadcast receiver 2 senses. In a similar way, the sensor 2 could sense the actuation of a light switch or door handle and thus determine the entry into the room in which the radio receiver 2 is located, in order to only release data transmission to the receiving unit 9 at these time periods. With the provided interface 17, the PI scanner 4 can be connected to the receiving parts 3 of different radio receivers 2 such that the RDS-supplemented MPX signal (multiplex signal), in particular including audio and additional data, according to the FM or High-frequency receiving part 3 or between the RF receiving part 3 and the stereo decoder can be tapped. The multiplex (MPX) signal thus contains the audio signals and the RDS data or inaudibly transmitted digital data, such as station information or station name and station identification numbers (PI code), information about the name and moderator of the program, etc. With the RDS decoder 5 the RDS data can be filtered out of the multiplex signal. The extracted data are fed to the microprocessor 6 for processing. The microprocessor 6 filters the PI code out of the RDS raw data. At the same time, the date and time are determined with the time measuring device 7, preferably a quartz clock, and these data are stored in the memory 13 by the microprocessor 6.

The PI code consists of a predetermined number of bits, in particular 16 bits, and uniquely identifies each transmitter worldwide using a combination of country information, frequency range and its own reference number. Four bits are available for country and regional codes. Eight bits are occupied by reference numbers, which the transmitter operator systematically distributes to his programs. This coding scheme also enables the identification of local PLCs or the detection of a local branch of a national broadcaster.

The timing device 7 is set or synchronized regularly, in particular from the receiving unit 9. Data relating to the date and time are usually also transmitted in the RDS signal; however, this transmitted data is usually not sufficiently precise. The sensor 12 provided is installed in particular in order to rule out that the arrangement is active or activated without the listener or any or potential users being in the room.

The remote interrogation of the arrangement by the receiving unit 9 can be provided to determine the status of the system or to carry out a remote diagnosis regarding the functionality of the arrangement or to determine whether the memory 18 is filled and a transmission must be initiated or whether the Time to be updated. It is particularly advantageous to receive exact real data which represent the actual use of the radio receiver in an unadulterated manner. Manipulation of the data can be ruled out if the arrangement is provided in a housing that is secure against access and protected against interference. The provision and evaluation of the data can go much faster. Due to the more precise data, the

Questioning or examining a smaller number of test subjects possible. This reduces the costs for market research. Moreover, that is

The privacy of the listener is protected, since the evaluation cannot be based on a name, but on the basis of a device identifier assigned to the radio receiver 2 selected for the survey. Furthermore, the invention

Arrangement worldwide for recording radio usage behavior essentially in the same

Form can be used, since every radio station worldwide has its own PI code.

The arrangement according to the invention can be installed or integrated into the radio receiver 2 in the factory or subsequently by the user or by the body carrying out the survey.

Claims

Patent claims:

1. Arrangement for detecting the use of radio receivers (2) set up for RDS data reception, characterized in that the RF receiver section (3) of the radio receiver (2), in particular the MPX output (11), in particular in front of one, if applicable the RF receiver (3) connected stereo decoder, an RDS decoder (5) is connected, with which the program identification code (PI code) or the station identifier of the transmitter can be decoded or determined from the RDS signal and that a transmission unit

(8), preferably a GSM modem, radio unit, conductor line or the like, is provided or connected to the RDS decoder (5), with which the PI code or a station identifier assigned to this PI code is sent to a Receiver unit (9), e.g. Recording and / or evaluation station, server or the like, is transferable.

2. Arrangement according to claim 1, characterized in that the RDS decoder (5) is associated with a time measuring device (7), in particular a real-time clock with a calendar.

3. Arrangement according to claim 1 or 2, characterized in that the RDS decoder (5) to the receiving part (3) of the radio receiver (2) via an interface (17), preferably an optocoupler, is connected.

4. Arrangement according to one of claims 1 to 3, characterized in that the time and date of switching on and / or switching off and / or

Shutting down the receiving part (3), in particular an RDS signal reception and / or switching the receiving part (3) to the reproduction of data carrier signals, e.g. CDs, cassettes or the like. From the receiving part (3) via the interface (17) which are fed to the CPU.

5. Arrangement according to one of claims 1 to 4, characterized in that the RDS decoder (5) the time and / or the date of switching on and / or switching off and / or switching off the receiving part (3), in particular an RDS signal reception and / or a switchover of the receiving part (3) to the reproduction of data carrier signals, for example CDs, cassettes or the like, is registered and these data are given to the signal containing the PI code and transmitted to the receiving unit (9).

6. Arrangement according to one of claims 1 to 5, characterized in that the radio receiver (2) or the receiving part (3) or the PI scanner (4) or the RDS decoder (5) an identification, e.g. A device code is assigned or stored, which identification is given by the transmission unit (8) to the signal transmitted to the reception unit (9).

7. Arrangement according to one of claims 1 to 6, characterized in that a memory unit (18) is assigned to the RDS decoder (5) for the temporary storage of the determined Pl codes and / or the station names corresponding to the respective Pl codes and / or switch on and / or switch off and / or

Breastfeeding and / or switching times and data for these transmitters and / or for storing the device code.

8. Arrangement according to one of claims 1 to 7, characterized in that the RDS decoder (5) has a microprocessor (6) for filtering out the PI code from the

RDS data and for processing, storage and transmission of the determined or accruing PI codes, data and identifiers.

9. Arrangement according to one of claims 1 to 8, characterized in that the transmission unit (8) starts its operation at predetermined times or after the occurrence of a predetermined amount of data.

10. Arrangement according to one of claims 1 to 9, characterized in that status and / or error signals are impressed on the signal to be transmitted to the receiving unit (9).

11. Arrangement according to one of claims 1 to 10, characterized in

- That a release or switching device for the RDS decoder (5) is provided, which comprises a sensor component (12) which, if necessary, the switching on of an ignition lock of a motor vehicle, the actuation of a light switch, the

Activation of a motion sensor, recognizes and

- That, if applicable, the time and / or the date of release of the RDS decoder (5) is recorded and can also be transmitted with the signals transmitted by the transmission unit (8) of the reception unit (9).

2. Radio receiver, characterized in that it comprises an arrangement according to one of claims 1 to 11.