EP1627347A2

EP1627347A2 - Rf reception system and portable object therefor

Info

Publication number: EP1627347A2
Application number: EP04731697A
Authority: EP
Inventors: Pascal Leroy; François Roussel; Joseph Leibenguth
Original assignee: Axalto SA; Schlumberger Malco Inc
Current assignee: Axalto SA; Axalto Inc
Priority date: 2003-05-07
Filing date: 2004-05-07
Publication date: 2006-02-22
Also published as: WO2004100060A3; WO2004100060A2

Abstract

An RF reception system including a terminal and a portable object such as a smart card for communicating with the terminal. The system includes an RF receiver for receiving a plurality of data flows from an RF signal. The portable object includes a data storage area. The data storage area includes predetermined data identifying a specific data flow. The system further includes selection means for selecting the specific data flow identified by the predetermined data from the plurality of data flows.

Description

Radio frequency reception system and associated portable object

The present invention relates to a radio frequency reception system comprising a radio frequency receiver capable of receiving a plurality of data streams from a radio frequency signal. The invention also relates to a portable object of the smart card type comprising a radiofrequency receiver capable of receiving a plurality of data streams from a radiofrequency signal.

Radiofrequency receivers for receiving the frequency band known as AM and / or public FM are known. The frequency of the AM band varies between 520 kHz and 1650 kHz. The frequency of the FM band varies between 87.5 MHz and 108 MHz on a main carrier and in stereo carrier of frequency 19 kHz and 38 kHz, possibly RDS of frequency 57 kHz associated with the main carrier. For radio frequency reception devices of known type, the selection of the frequency is carried out by a push button, a rotary button, or the entry of a numerical value of the frequency. A program broadcast on the FM frequency band is accessible to all listeners equipped with such a receiver and located in a coverage area of the transmitter. This also assumes that the frequency of the broadcast program in question is known to the public. To receive a particular broadcast program, the public must manipulate the receiver to tune in to the frequency of the particular program, at the risk of stopping its search on another broadcast frequency.

A problem with the invention is to restrict the public having access to broadcast data.

The invention provides a radiofrequency reception system comprising a terminal and a portable object arranged to communicate with the terminal, the system comprising a radiofrequency receiver capable of receiving a plurality of data streams from a radiofrequency signal. The portable object includes a data storage area. The data storage area includes predefined data identifying a particular data stream. The the system further comprises selection means for selecting from the plurality of data streams, the particular data stream identified by the predefined data.

Preferably, the portable object is a smart card.

The predefined data defines, for example, a certain frequency. The particular data stream is, for example, a program broadcast on the frequency in question. The data for the selection of the frequency range, the specific frequency (s), and any subcarriers can be stored in the chip card in coded or non-coded form.

When the smart card communicates with the terminal, the selection means will select the particular data stream relating to the broadcast program using the predefined data. Thus to select the broadcast program, it is necessary to have the smart card. The public having access to the broadcast program is therefore restricted. The invention therefore has the advantage of guaranteeing public "captivity" for a given radio program since the frequency and / or the subcarrier are locked and the user cannot switch to another frequency.

With the invention, if the frequency of the broadcast program is not communicated publicly, it is possible to reserve the exclusive viewing of the program (for example comments on a sporting event, music, etc.) only paying spectators of the event, while they attend the event live.

Alternatively, the predefined data can define a time (time multiplexing and / or operating time).

Another advantage of the radiofrequency reception system according to the invention is the possibility of personalization. The smart card can be programmed with the predefined data, for example the frequency of transmission of the radio program (electrical personalization) and printed at the last moment. (graphic customization) with a logo, or an advertising message linked to the broadcaster or to an event covered by the broadcaster.

However, with regard to electrical personalization, the card can be programmed or reprogrammed at the entrance to an event covered by a broadcasting program so as to reserve viewing of the programs to the audience present and / or paying.

There is therefore great freedom in the choice of the moment when the predefined data will be stored in the storage area of the smart card: in the factory during the manufacture of the card, or at the location of the event at the level an access point.

In fact, the smart card industry allows rapid personalization (for example within a period of less than 8 days) of both the shape of the system by a given advertising message, a logo or any other distinctive sign, as well as the frequency of the broadcast program for large quantities (quantity greater than 50,000 units). This personalization makes it possible to offer broadcasters and advertisers an audio and visual medium that can be addressed to a captive audience. This personalization also makes it possible to offer users an event or “collector” souvenir that can be kept after the event.

The radiofrequency reception system according to the invention has a low manufacturing cost since it incorporates one or more integrated radiofrequency decoding circuits of standard type.

Advantageously, the radio frequency reception system or a part of its constituent elements is designed to be recoverable and recyclable after use and / or end of life of the power supply (for example batteries).

Another advantage of the invention is to allow broadcasters and advertisers to use a wider frequency range than that saturated with public FM. Diffusion in different frequency bands and / or the use of subcarriers is possible with the reception system of the invention. For example, it is possible to use the AM and FM frequency range public (520 kHz to 1650 kHz and 87.5 MHz to 108 MHz) or extended (below and above the frequency range) The possibilities for broadcasting programs are therefore multiplied by the availability of a greater number of frequencies usually not accessible by receivers. This is therefore very interesting for event organizers in regions or areas with saturated FM public band (for example urban areas).

According to one embodiment of the invention, the radio frequency receiver can be located in the smart card.

According to another embodiment of the invention, the radio frequency receiver can be located in the terminal.

According to yet another embodiment of the invention, the selection means can be located in the smart card.

According to yet another embodiment of the invention, the selection means can be located in the terminal.

According to another aspect of the invention, the system comprises limitation means for operating the radio frequency receiver for a limited period using other predefined data, the other predefined data being stored in the data storage area of the card. smart. Thus, the owner of the card can listen to the broadcast data only for a limited time, for example, just for the duration of a sporting event, for example a tennis match. This therefore advantageously makes it possible to restrict over time the public having access to the broadcast data.

By way of example, the other predefined datum defines a number of units and the reception time can be checked by counting the units.

According to another aspect of the invention, the radiofrequency reception system comprises decryption means capable of decrypting a data stream of the radiofrequency signal. The decryption means can be in the smart card, in the terminal, and / or require the coupling of the card and the terminal. Thus, the broadcast data can only be decrypted for the card holder. A fraudster who receives broadcast data without using a smart card could hardly decrypt it without an original smart card. Alternatively, instead of encrypting the broadcast data, it can be scrambled. The use of scrambling or encryption may depend on the level of security required, depending in particular on the content of the broadcast data. The use of scrambling or encryption may also depend on the intrinsic nature of the data (digital or analog data).

According to another aspect of the invention, the radiofrequency reception system comprises means for recording, for example a mass memory, of a received data stream contained in the radiofrequency signal. Advantageously, the recording means are capable of being triggered from a date defined by a third predefined datum, the third predefined datum being stored in the data storage area of the smart card. Thus, according to this alternative, the user can advantageously record at a fixed time, for example, a radio broadcast, and listen to it as soon as it is available.

The invention also relates to a portable object of the smart card type comprising a radio frequency receiver capable of receiving a plurality of data streams from a radio frequency signal. The portable object further includes a data storage area. The data storage area includes predefined data identifying a particular data stream. The portable object also comprises selection means for selecting from the plurality of data streams, the particular data stream identified by the predefined data.

The invention will be illustrated by nonlimiting examples relating to the following figures in which identical references relate to similar elements: Figures 1.A and 1.B respectively represent a side view and a top view of a radio frequency reception system according to the invention for which the card is connected to the terminal;

Figure 1.C shows a three-quarter view of a radio frequency reception system according to the invention for which the card is disconnected from the terminal;

FIG. 2 represents a three-quarter view of a radiofrequency reception system according to the invention according to which the constituent elements of the terminal are visible by transparency; Figures 3.A and 3.B illustrate an exemplary embodiment of the terminal box of a radio frequency system according to the invention;

FIG. 4 illustrates an embodiment of the radiofrequency reception system according to the invention; and

FIG. 5 illustrates another embodiment of the radiofrequency reception system according to the invention.

Figure 1.A is a side view of the radio frequency reception system 1 according to the invention.

Figure 1.B is a top view of the radio frequency reception system 1 according to the invention.

In these figures, the radio frequency reception system 1 comprises a terminal surrounded by a terminal box 2A and a card 3 coupled to the terminal. A 4C mono earphone is connected to the terminal.

Figure 1.C is a three-quarter view of the radio reception system according to the invention. In this figure, the card 3 is decoupled from the terminal.

Figure 2 is a three-quarter view of the radio reception system according to the invention. In this figure, the components of the terminal are visible through transparency. The radio frequency reception system 1 comprises a terminal 2 and a card 3 coupled to the terminal. A 4C mono earphone is connected to terminal 2.

Terminal 2 is connected in a known manner to the connection interface 23, to a power supply 11 and has a connector to a listener 4C (the connections do not are not shown). All of these elements are located in a terminal box 2A (the limits of which are shown in dotted lines). The terminal box 2A protects these elements. The outer surface of the case serves as a support for graphic personalization. The connection interface 23 allows the terminal 2 to exchange data with the card 3. The earpiece 4C can also include an integrated antenna. Alternatively, the antenna can be placed in the terminal box 2A. The link between the earphone 4C and the terminal 2 can be non-separable for a gain in reliability and cost or separable (ie connection of the earphone by jack 3.5 standardized) to allow the user a choice of the type of earphone .

The power supply 11 comprises, for example, one or more batteries of the LR03 type intended to power all the electronic components of the terminal 2 and of the card 3.

When a user inserts the card into the terminal, the system will search in a data storage area located in the card for a predefined datum identifying a particular data stream, for example an FM or AM frequency or a subcarrier. The terminal will lock and freeze on this frequency and receive the particular data flow, thus transforming the system into a radio receiver dedicated to this frequency, without any manipulation or research for the user.

The predefined data identifying a particular data stream is stored in a data storage area of the card during the electrical personalization of the smart card. The predefined data corresponding to a reception frequency is not disclosed and only the owners of the correctly personalized card, for example the spectators of the event have access to the broadcast program. Advantageously, the broadcast program includes value-added information for the spectators of the event. The radio frequency reception system can either be specialized in a given frequency range, or be able to receive several frequency ranges thanks to more elaborate radio components and adapted filtering electronics which allows a large choice in the definition of the data. predefined. According to a more complex radiofrequency reception system, it is possible to store in a data storage area arranged in the card several other predefined data identifying several distinct particular data streams. For example, a broadcasting organization sponsors an event and uses:

- a subcarrier of its signal to broadcast the program of the event to spectators (first predefined data),

- a particular frequency within the event (second predefined datum), and

- a main frequency of the broadcasting organization (third predefined datum).

The radio reception system is capable of automatically switching from one frequency to another. During the event, the particular frequency within the event can be used to communicate specific information. At the end of the event, the radio frequency reception system switches automatically or by pressing a button on the terminal to the main frequency of the broadcasting organization. In this example, the second data and the third predefined data can be stored in the data storage area of the smart card at the factory or at the last moment at the place of the event (at an access point )

The transmission of the predefined data to the smart card for storage in memory can be carried out by contact or contactless depending on the type of smart card.

In addition, it is also possible to store in a data storage area arranged in the card a fourth predefined datum corresponding to an authorized operating time of the radiofrequency reception system, for example time units. The duration is managed by counting the predefined units. The smart card therefore ensures the management of the operating time, which makes it possible to introduce the concept of "pay radio". Advantageously, the system will be able to use data transmit (on the RDS frequency for example) to have a time stamping functionality and to manage listening rights precisely.

Figures 3.A and 3.B show a particular embodiment of a housing

2A of the terminal of a radiofrequency system 1 according to a profile view and a top view respectively.

The radio frequency system 1 is presented in two separate parts: the terminal box 2A and the card 3. In this embodiment, the shape of the terminal box 2A has been personalized according to a given event or the wish of the sponsor or partner. of the event. The event is for example a sporting match of the rugby match type, and the housing 2A substantially resumes the relief shape of a rugby ball. Card 3 can also be personalized with XYZ colors, brands, slogans, etc ... specific to one or more sponsors, or have a particular shape.

Advantageously, the card 3 constitutes an element of the disposable, disposable radiofrequency system which can be collected since it is personalized for a given event or advertiser. Indeed, at the end of an event, the spectator can decouple the card from the terminal and keep it as

"Collector". Alternatively, the entire system can be kept and can be used as a dedicated radio receiver.

Advantageously, the terminal 2A is universal, that is to say reusable with other card 3 for a later event.

Advantageously, the smart card has a standardized format (in accordance with standard ISO 7816). Such a format makes it possible to benefit from the technologies and the flexibility of the manufacturing methods available from the smart card industry. In particular, the chip card format allows the graphic personalization of the card by printing techniques, the electrical personalization of the chip (in accordance with ISO 7816) and the miniaturization of electronic components. The smart card can also integrate additional standardized functions such as the electronic purse function (for the purchase of goods or services at the place of the event by the spectator), the access badge function with or without contact to secure access to the event. Alternatively, the card can take the form of a small SIM (Subscriber Identity Module) card similar to that used for mobile telephony. This allows greater miniaturization of the entire system.

The radio frequency system 1 is divided into 2 parts: the terminal 2 and the card 3. The functions of the radio frequency system 1 can be distributed between the terminal 2 and the card 3 according to two embodiments which will be presented below.

FIG. 4 illustrates a first embodiment of the radiofrequency system 1 according to the invention.

According to this first embodiment, the elements allowing the decoding of the radiofrequency waves are integrated into the card 3.

The terminal 2 integrates only the transmission / reception module 4, the man-machine interface module 9 and a microcontroller 13. The terminal 2 is connected to the power supply 11.

The transmission / reception module 4 comprises a radio control module 4A, a listener 4C and its connections, a reception antenna 4B of the radiofrequency signal. The earpiece may for example be a mono ear type earpiece. The receiving antenna 4B can advantageously be integrated into the earphone wire. The radio control module 4A allows reception of FM radio waves. The microcontroller 13 processes the data flows (for example reading the information contained in the card memory) between the elements of the terminal 2 and the smart card 3 via the card interface 23. The transmission module / reception 4 may also include a radio-digital management module 4D, for processing the RDS signal. The man-machine interface module 9 can include an input / output interface 9A to an external device (for example a USB type interface, etc.), a display 9B (LCD, TFT, light-emitting diodes, etc.) and an interface. 9C user (pushbuttons, keyboard ...). The power supply 11 is constituted for example by one or more batteries of the LR03 type intended to supply all of the electronic components of the terminal 2 and of the card 3.

The terminal 2 can also include a storage module 10, for example a mass memory of the flash memory type. Terminal 2 can also include an amplification module (not shown) for amplifying the signal transmitted to the earpiece. It can be a high or low two-level audio amplification. The amplification level can be selected by the user of the radio frequency system 1. The amplification allows additional comfort for using the radio frequency system 1 in a noisy environment.

When the card 3 is inserted into the connection interface 23 of the card, the terminal 2 supplies the card electrically via the card interface 3A. According to this first embodiment, the card includes a memory and a microprocessor 3B as well as a radio frequency module 6. Advantageously, the memory, the microprocessor 3B and the radio frequency module 6 are integrated in a single component. The radio frequency module 6 comprises an encryption / decryption module 7, a frequency measurement device 8A, a frequency control module 8B and a module for storing the current frequency 8C. The radio frequency module 6 forms an AM radio receiver (from 520 kHz to 1650 kHz) and / or FM (from 87.5 MHz to 108 MHz) and / or extended FM (10 Mhz to 87.5 Mhz and beyond 108 Mhz) , multi ranges, frequency selection and / or associated subcarriers. The card interface 3A and the card 3 advantageously comply with standard ISO 7816 and take up the position of the standardized contacts. The radio frequency module 6 is wedged on the frequency range, the frequency (s), and possibly the subcarrier (s) as stored in the memory of the card 3. It is possible to provide that in the absence of a radiofrequency signal on the first selected frequency, the system switches to a second frequency stored in the memory of the card 3. The second frequency can for example be the permanent frequency of the broadcaster sponsor of the event.

In addition, the card may include an extra-flat screen 3C for displaying information to the user of the system.

FIG. 5 illustrates a second embodiment of the radiofrequency reception system according to the invention.

According to this second embodiment, the elements allowing the decoding of the radiofrequency waves are integrated in the terminal 2. The other elements making up the terminal have already been described in relation to FIG. 4.

The card 3 only includes a card interface 3A, a memory and a microprocessor 3B. The memory stores the coded or non-coded information relating to the frequency range, the frequency (s), and possibly the subcarrier. Optionally, data relating to the maximum duration of activation is also stored.

Alternatively, the card can include an extra-flat screen 3C. Such a screen offers the possibility for the user to display data stored in the card, for example a remaining sum of money if the card includes an electronic purse.

However, the data stored in the card can also be displayed via the display 9B of the terminal 2. Other information, for example information contained in the received radio frequency signal can also be displayed on one or the other device. other of these screens 3C, 9B.

In the two embodiments presented above, the system can be provided with a mass data storage memory. This functionality associated with the input / output interface 9A to an external device makes it possible to transfer stored data (for example the broadcast program which has been received) to a computer. Conversely, the system provided with such a memory can become an MP3 player. Finally, the radiofrequency reception system comprising such a mass memory can authorize the automatic recording of a predefined emission. For example, a broadcasting organization transmits a course on a specific subject led by a specialist. On the date and at the time defined and recorded in the card, the system records the emission in the mass memory. The program can be listened to or viewed later or transferred to a peripheral, for example a PDA, a computer, etc. The recorded data can be audio, video or other data.

According to an alternative applicable to the two embodiments of the invention which have just been presented, the radiofrequency reception system can also operate when the received radiofrequency signal is scrambled or coded. The radiofrequency signal emitted is scrambled when an additional signal is superimposed on the normal signal emitted.

The encryption / decryption module 7 of the radio frequency reception system is programmed to subtract the additional signal to obtain an audible audio signal. To this end, an algorithm comprising a subtractive function making it possible to recalculate the unscrambled signal and to make the emission normally audible is added in the encryption / decryption module 7.

Alternatively, an additional filter neutralizing the interference signal may be provided to provide an audible signal. The radiofrequency signal transmitted is coded when the signal is modified by the transmitter according to a particular coding method requiring for example the use of a secret coding key. The encryption / decryption module 7 of the radio frequency reception system is programmed to decode the signal to obtain an audible audio signal. To this end, a decoding algorithm making it possible to recalculate the initial signal and make the transmission normally audible is added in the encryption / decryption module 7. Advantageously, the secret key used for decryption is stored in a memory of the smart card. . Decryption can be done online ("on the fly" mode) or delayed ("batch" mode).

The system according to one or other of the embodiments previously described can have its functionalities extended to the reception, listening, viewing, of audio, video or digital data. This data can possibly be recorded in a mass memory, and be transferred to a peripheral (for example a computer) in real time or in deferred fashion. The received data can be coded or non-coded. The data can be stored in the mass memory in an encoded or uncoded manner.

In the case of coded data, the associated smart card provides encryption / decryption using a cryptographic component. The smart card also ensures the confidentiality of the information stored.

The smart card can also be used to respect copyright by incorporating an application for verifying and controlling the payment of copyright.

The smart card can also be used to record media data which can be read by a specific reading terminal. The user of the system could be encouraged to insert the smart card in such a terminal by any suitable loyalty process (for example by loyalty points).

The detailed description of various embodiments of the invention which has been made above relates to a particular radiofrequency signal, namely a so-called "radio" signal in the AM or FM band. However, the radiofrequency reception system according to the invention is not limited to this frequency range. In general, the radio frequency signal can be any electromagnetic wave capable of transporting and / or containing data. Thus it can be, for example and this without limitation, an infrared signal, an ultrasonic signal, an ultraviolet signal or a radio frequency signal in the frequency range 2.4 GHz to 2.4835 GHz (WIFI or Bluetooth communication). The data can be any type of data, for example and this without limitation, of the voice / sound type (analog or digital) and or of the video type and or of the digital data type.

Similarly, the description of the various embodiments of the invention is not limited to the terminal adapted to the format of a smart card and to a smart card in ISO format or in SIM (Subscriber Identity Module) format. . In general, the smart card can be any portable object comprising at least one data storage area. Advantageously but not necessarily, the portable object can comprise a microprocessor. In general, the reader can be any reader arranged to communicate with such a portable object. Advantageously, the reader can have a loudspeaker, receive headphones or a screen. The reader can be, for example and without limitation, a simple connector, a mobile phone or a personal digital assistant (in English: Personal Digital Assistant - PDA). If the portable object is a smart card, this smart card can communicate with the reader in a contact, contactless or hybrid manner (combining the contact and contactless communication mode).

The last case makes it possible to advantageously manage the various possible functionalities of the smart card. The contact function serves, for example, as an interface with the radio frequency receiver. The contactless function can be used for entry control, for an electronic purse function or for managing the account of a spectator or subscriber. Thus and without limitation, a spectator coming to see a tennis match in a stadium can take his PDA into which he inserts a mini-card, for example, in SIM format, which he bought specially for the event sportsman in question. When entering the entrance, for example at an access point, the identifier, the date and the time of the match can be easily read. Thus, during the match, thanks to its mini-card, it can receive a radio and / or video signal emitted in an area covering the tennis stadium for the duration of the event. Thus only the spectator with his mini-map can hear the comments of the match and / or see slow motion directly on the screen of his PDA. He can thus live more intensely the sporting event in question.

Claims

claims

1. Radio frequency reception system comprising a terminal and a portable object, in particular a smart card, arranged to communicate with the terminal, the system comprising a radio frequency receiver capable of receiving a plurality of data streams from a signal radio, the portable object comprising a data storage area, the system being characterized in that the data storage area comprises a predefined data item identifying a particular data stream, the system further comprising selection means for selecting from the plurality of data streams, the particular data stream identified by the predefined data.

2. The radiofrequency reception system according to claim 1, characterized in that the predefined datum defines a frequency.

3. The radiofrequency reception system according to claim 1, characterized in that the system comprises limitation means for operating the radiofrequency receiver for a limited period using a second predefined datum, the second predefined datum being stored in the zone of storage of portable object data.

4. The radiofrequency reception system according to claim 1, characterized in that the portable object comprises decryption means able to decrypt a data stream of the radiofrequency signal.

5. The radiofrequency reception system according to claim 1, characterized in that the system comprises means for recording in a mass memory a data stream received by the radiofrequency signal, the recording means being able to be trigger from a date defined by a third predefined datum, the third predefined datum being stored in the data storage area of the portable object.

6. The radio frequency reception system according to claim 1, characterized in that the radio frequency receiver is located in the portable object.

7. The radio frequency reception system according to claim 1, characterized in that the radio frequency receiver is located in the terminal.

8. The radio frequency reception system according to claim 1, characterized in that the selection means are located in the portable object.

9. The radio reception system according to claim 1, characterized in that the selection means are located in the terminal.

10. Portable object of the smart card type, characterized in that it comprises a radiofrequency receiver capable of receiving a plurality of data streams from a radiofrequency signal, the portable object further comprises a data storage area , the data storage area comprising a predefined data item identifying a particular data stream, the portable object further comprises selection means for selecting from the plurality of data streams, the particular data stream identified by the predefined data item.