WO2005106627A1 - Method of transmitting digital data to a portable electronic device and corresponding signal, device and application - Google Patents

Abstract

The invention relates to a method of transmitting digital data to at least one portable electronic device which is equipped with a camera. One such method comprises the following steps consisting in: encoding (11) a set of digital data to be transmitted to at least one portable electronic device, whereby the data are associated with a sequence containing at least two images and/or image portions that are representative of the data according to at least one pre-determined visual encoding rule; presenting (12) images comprising the sequence containing at least two images and/or image portions on at least one display screen; taking photographs (13) by directing the camera towards the display screen in order to obtain the sequence in the device; and converting (15) the sequence, in the device, to the set of digital data as a function of the encoding rule(s).

Description

Method for transmitting digital data to a portable electronic device, corresponding signal, device and application. 1. Field of the invention The field of the invention is that of portable electronic devices such as radio telephones. More specifically, the invention relates to the transmission of digital data to such a portable device. 2. Solutions of the Prior Art Portable electronic devices, of the mobile phone, personal digital assistant (or PDA) type or portable computer generally comprise a keyboard and a screen. Increasingly, they are also equipped with a digital camera. They make it possible to carry out digital data communications, independently of conventional voice communications. To do this, we know several techniques that can be classified into three distinct categories. The first category includes communication techniques requiring one or more wired links. This category includes in particular: communications via one or more USB ports (for “Universal Sériai Bus” in English); communications via I2C buses (for “Inter-IC bus” in English), where I2C is a low-bandwidth and short-distance communication protocol which makes it possible to interconnect, on the same electronic card, several slave devices to a master device via a serial data wire and a serial clock wire; communications via a serial peripheral interface (SPI for “Sériai Peripheral Interface”), the latter, placed in a first electronic device, allows direct, serial, synchronous and full duplex communications between the first device and a second device ; - communications via a bidirectional asynchronous serial port of UART type (for “Universal Asynchronous Receiver / Transmitter” in English), dedicated to third-party equipment and allowing the control of a radiocommunication module by this third-party equipment (for example thanks to AT commands), the transfer to third-party equipment of data coming from a network and received by the radiocommunication module as a modem, ...; - communications via a bidirectional synchronous / asynchronous USART type serial port (for “Universal Synchronous Asynchronous Receiver / Transmitter” in English). These communication techniques have a major intrinsic drawback which is the need to use wires or cables which are bulky, unwieldy, unsightly and expensive. It is necessary to have the cable specific to each technique, and most devices only allow communication according to a single standard. The second category eliminates the use of electrical cables. It notably includes wireless communication techniques in the infrared such as those implementing the IrDA standard (for Infrared Data Association in English). This standard targets both infrared communication devices and the protocols they use to communicate. These communication techniques are based on diodes and photodiodes whose wavelength is around 875nm. A major drawback of the techniques of this second category and that they require that the communicating devices be very close due to the short range of these communication techniques based on a diode / photodiode association. The third category not only eliminates the use of electric cables but also the proximity constraint of communicating devices. It includes communication techniques through over the air, and in particular Bluetooth (registered trademark) and WIFI (registered trademark) techniques. The techniques of these three categories generally require the addition of bulky and expensive mechanical and / or electronic systems. Then, these techniques implement complex systems of multiple interconnections. Finally, current systems which allow data transmission (address book contact details for example) are only compatible between devices of the same brand and even sometimes only between same models. 3. Objectives of the invention The object of the invention is in particular to overcome the drawbacks of the aforementioned prior art. More specifically, an objective of the invention is to provide a new communication technique implemented easily on a portable electronic device, without material input. Another objective of the invention is to implement such a technique which does not require cables. The invention also aims to provide such a technique which does not require the addition of mechanical and / or electronic equipment compared to existing infrastructures. The invention also aims to provide such a technique which makes it possible to make compatible for this technique almost all existing devices, regardless of the brand or model. The invention also aims to provide such a technique which is, moreover, simple to implement and inexpensive. Another objective of the invention is to provide such a technique, which makes it possible to develop new applications or new modes of communication and transmission of information. 4. Essential characteristics of the invention These objectives, as well as others which will appear subsequently, are achieved using a method of transmitting digital data to at least one portable electronic device equipped with a camera. According to the invention, such a method comprises the following steps: - coding of a set of digital data to be transmitted to at least one portable electronic device, associating with the data a sequence of at least two images and / or image portions representative of the data according to at least one predetermined visual coding rule; - presentation of images comprising the sequence of at least two images and / or image portions, on at least one display screen; - taking pictures using the camera, directed towards the display screen, to obtain the sequence in the device; - conversion, in the device, of the sequence to the digital data set, according to the coding rule or rules. Thus, the invention is based on a completely new and inventive approach to the process of exchanging digital data, using the camera (and which therefore does not require the addition of mechanical and / or electronic equipment compared to existing infrastructures) to receive not an image (set of pixels representative of an image) but data encoded in a visual form. On the other hand, this process does not require the use of wires and makes it possible to make compatible, for this data communication, almost all the existing devices, as soon as the coding rules are known. Preferably, the coding implements a first rule consisting in associating with each color of a plurality of colors a distinct word of at least one bit. Preferably, the method according to the invention implements 2 "colors, associated respectively with 2" words of n bits each, with n integer and n ≥ 1. Advantageously, the value of n = 1. Advantageously, the coding puts implement a second rule consisting of decompose each image or portion of image into at least two regions each coding a word of at least one bit. Preferably, the regions are defined in the form of identical patterns. Preferably, each image or portion of image comprises a set of patterns organized in a matrix. Advantageously, the patterns are squares and in that each image or portion of image comprises 16 squares or rectangles distributed in 4 rows and 4 columns. Advantageously, said conversion step is preceded by a synchronization step. Preferably, the synchronization step allows at least one of the following operations: alignment, making it possible to locate the position and / or to adjust the size of the image and / or of the image portion; - time synchronization, consisting in identifying the start, the end of the sequence and / or configuration information on the sequence; - adaptation of colors and / or brightness, to calibrate the device. Preferably, the sequence comprises at least one synchronization image or portion of image, delivering information known to the device or determinable by the latter. Advantageously, at least some of the images and / or image portions bear at least one marker making it possible to identify the position and / or to adjust the size of the image and / or of the image portion. Also advantageously, at least one of the marks forms a frame. Advantageously, the device comprises means for capturing information and means for signaling that the alignment has been obtained and / or not obtained. Preferably, the image presentation step is carried out using visual media belonging to the group comprising: - televisions; - cinema screens; - computer screens; - portable device screens. The invention also advantageously relates to an image signal comprising a sequence of at least two images and / or image portions coded and transmitted according to the aforementioned method and associating with data to be transmitted a sequence of at least two images and / or image portions representative of the data according to at least one predetermined visual coding rule. The invention also preferably relates to a portable electronic device equipped with a camera. Such an electronic device advantageously comprises means for receiving visually coded digital data, comprising means for converting a sequence of at least two images and / or portions of image taken by the camera into data, the or the images and / or portions of images being formed on transmission according to at least one predetermined rule to be representative of the data. Preferably, portable electronic device according to the invention belongs to the group comprising: - mobile telephones; - personal assistants; - portable computers. The invention also advantageously relates to the application of the aforementioned transmission method to the dissemination of at least one of the information belonging to the group comprising: - the telephone numbers; - logos; - ring tones; - Games ; - ads ; - information ; - weather reports; - article references; - address books; - commercial offers. Preferably, the transmission of information from a computer screen to a portable electronic device. Also preferably, the aforementioned transmission method applies to the exchange of data between two portable electronic devices. The invention also relates to a device for transmitting visual data advantageously comprising means for coding a set of digital data to be transmitted to at least one portable electronic device, associating with the data a sequence of at least two images and / or image portions representative of the data according to at least one predetermined visual coding rule, in order to allow the presentation of the sequence of at least two images and / or image portions on at least one display screen. 5. List of Figures Other characteristics and advantages of the invention will appear more clearly on reading the following description of a preferred embodiment, given by way of simple illustrative and nonlimiting example, and of the appended drawings, among which: FIG. 1 is a simplified flowchart of an embodiment of the method for transmitting digital data according to the invention; - Figures 2A and 2B illustrate two preferred embodiments of coding rules for the transmission method of Figure 1; Figure 3 shows a portable telephone comprising a camera; FIG. 4 illustrates a first preferred example of implementation of the method according to the invention; - Figure 5 illustrates a second preferred example of implementation of the process according to the invention. 6. Description of embodiments of the invention The general principle of the invention is based on the use of the camera of a portable electronic device in order to capture a sequence of images previously associated by coding, according to coding rules. visual, to digital data to be transmitted to the device and on the decoding of this sequence by the device in order to find the digital data. The digital data to be transmitted may correspond, for example, to telephone numbers, logos, ring tones, games, advertisements, information, weather reports, article references, address books, commercial offers , or any other entity that can be encoded as digital data. In a preferred embodiment of the method according to the invention, this method comprises broadcasting digital data. This transmission takes place from a transmitter display screen to a portable electronic receiver device. We will focus in the following, to describe the steps of this process. The transmitter display screen can be included in a television, computer screen, cinema screen or even a screen of any other portable electronic device. The portable electronic receiving device must have a digital camera, so it can be a cell phone, PDA or even a laptop. For the sake of simplification, in the following, we will take the case of a portable electronic device of the cell phone type for which on-board cameras are becoming widespread. Of course, those skilled in the art can easily extend the techniques according to the invention to any transmitter display screen and to any portable electronic receiver device. There is presented, in relation to FIG. 1, a flow diagram of an embodiment of the steps of the method of transmission, from a display screen to a mobile telephone, of a set (or of a sequence) of digital data according to the invention. In a first step 11, the digital data to be transmitted is coded, associating with this data a sequence of images and / or portion of image representative of this data. This coding is carried out by means of predetermined visual coding rules. Examples of coding rules are described below in relation to FIGS. 2A and 2B. In a preferred embodiment according to the invention, a sequence of images is implemented. This coding step can be implemented in a device associated with the transmitter display screen (cf. first embodiment example described below in relation to FIG. 4) or in a device remote from the display screen by example a server (cf. second example of embodiment described below in relation to FIG. 5). In a second step 12, the sequence of images is presented on a display screen. The sequence of images can be displayed on the entire surface of the transmitter display screen (cf. first example of embodiment described below in relation to FIG. 4) or only on a portion of the display screen (cf. second example of embodiment described below in relation to FIG. 5). In this case, it can for example be placed in a corner of a television picture. In a third step 13, a phase of shooting the sequence of images is carried out by the camera of the portable telephone directed towards the screen. In a fourth step 14, one or more synchronizations are carried out of the portable telephone relative to the display screen, so as to allow the subsequent decoding. Thus, in a first synchronization step 141, an alignment can be implemented which allows the portable device to locate the position of the data images and to adapt to the dimensions thereof. Techniques allowing this alignment according to the invention to be carried out are detailed below in relation to FIGS. 4 and 5. In a second synchronization step 142, a time synchronization can be implemented which allows the mobile telephone to identify the start and the end of the image sequence. In a third synchronization step 143, a calibration of the mobile telephone is implemented in order to adapt its settings to the colors and to the brightness of the sequence of images. The time synchronization and the calibration are obtained for example by means of an image of the sequence (preferably one of the first images), called the synchronization image, which contains information known to the mobile telephone or determinable by the latter. In a particular embodiment, the sequence comprises several synchronization images. These images can be repeated regularly. In a fifth step 15, the image sequence is converted to the digital data in order to find the information that we wanted to transmit. This conversion is carried out by means of the coding rules used to implement the first step 141, and is preferably implemented in the mobile telephone. FIGS. 2A and 2B illustrate two preferred embodiments of the coding rule according to the invention. We consider in the following a frame rate of the images of 25 frames per second, which corresponds to the frame rate of the images of a television set. According to the first embodiment of the coding rule, illustrated in FIG. 2A, each image of the sequence is a square either of black color 21, or of white color 22. Each color is associated with a binary value, for example, with black is associated a 0 and with white, a 1. We obtain, according to this first embodiment, a bit rate associated with the data to be transmitted of approximately 3 bytes / s. According to a variant of this first preferred embodiment, the square can take several distinct colors, for example 8. Each color is then associated with a 3-bit word. For example, white, black, gray, red, green, blue, yellow, orange are associated respectively with the following 3-bit words: 000, 100, 010, 001, 110, 101, 011, 111. We obtain, according to this alternatively, a bit rate associated with the data to be transmitted of approximately 9 bytes / s. According to another variant of this first preferred embodiment, the square can take 256 distinct colors. According to this other variant, a bit rate associated with the data to be transmitted is obtained of around 24 bytes / s. According to the second embodiment of the coding rule, illustrated by FIG. 2B, each image of the sequence is a matrix 25 comprising for example 16 squares 26. If each square is either black or white, each image corresponds to a word of 16 bit. According to a variant of this second preferred embodiment, the 16 squares of the matrices can take on different colors. According to this variant, a bit rate associated with the data to be transmitted is obtained of approximately 144 bytes / s, for 8 colors. We can notice that: if each image included 4 squares which can take 8 distinct colors, we would obtain a bit rate associated with the data to be transmitted of approximately 36 bytes / s; if each image included 8 squares which can take 8 distinct colors, one would obtain a bit rate associated with the data to be transmitted of approximately 72 bytes / s; - if each image included 36 squares which can take 8 distinct colors, one would obtain a bit rate associated with the data to be transmitted of approximately 324 bytes / s. It can also be noted that to transmit a message of 160 characters, coded on 160 bytes by means of the technique according to the invention, it would be necessary, considering a bit rate of 324 bytes / s substantially 0.5 s. Likewise, it it would take approximately 6s and 16s to transmit a 2 kb MIDI ringtone and a 5 kb coded image respectively. Of course, the person skilled in the art may make any variant to these coding rules and in particular, to the number and choice of colors of the squares, to the word / color associations as well as to the number of bits per coded word in the sequences. It may also make any suitable variant to the shape and structure of the images, in particular, the number of squares included in an image and the texture of the images. It can also offer forms other than squares. It is also possible to display several data images simultaneously, it is up to the user to film these images selectively or in a given order, depending on the applications. There is shown, in relation to FIG. 3, a portable telephone 30 comprising a camera 31 making it possible to implement the method according to the invention. The portable telephone 30 further comprises a display screen 32 and a keyboard 33 comprising keys 34. FIG. 4 illustrates a first preferred example of implementation of the method according to the invention in which a first portable telephone 40 transmits, by means of its display screen 41, a first sequence of images 42 according to the invention which is received by a second portable telephone 46 by means of its camera 48. Preferably, prior to the reception of the sequence of images by the second portable telephone 46, is implemented the alignment step 141 (FIG. 1) which makes it possible to place (or manage the placement) the second telephone 46 relative to the first telephone 40. Indeed, it is a question of place the camera 48 of the second telephone facing the display screen 41 of the first telephone 40 and bring the camera 48 sufficiently close to the screen 41 so that all of the images in the sequence are clearly visible detected by the camera 48. This alignment can be obtained automatically by means of suitable software implemented in the second telephone. An audible signal and / or in this case, it alerts the user that the alignment is correctly carried out. It can also be provided that the device comprises means for analyzing the image, for detecting and cropping the image and / or for indicating the good or bad positioning of the devices relative to one another. According to a variant of this first example of implementation, simultaneously with the transmission of the first image sequence 42, a second sequence of images 43 is transmitted by the display screen 44 of the second portable telephone 46 and is received by the camera 47 of the first telephone 40. The coding step 11 (of FIG. 1) of the digital data to be transmitted, making it possible to obtain the image sequence, has been previously implemented in each portable telephone used as a transmitter. The conversion step 15 (FIG. 1) of the image sequence into digital data is carried out in each portable telephone used as a receiver. This makes it possible to provide a new digital data communication technique, wireless and possibly bidirectional, between two mobile phones, without adding equipment, simply by diverting the conventional use of the on-board camera. There are few or no compatibility problems between devices of different brands since it is sufficient that the telephones include a camera and a display screen, and that they are equipped with the appropriate software or software. This “point-to-point” communication technique according to the invention makes it possible to quickly exchange data between telephones, such as SMS messages, logos, telephone ring tones, wallpaper images, telephone coordinates, content. calendars, files, games or even any other entity in the form of digital data. Of course, a person skilled in the art can extend this technique to the case of digital data exchange between PDAs, between laptops, or between mixed portable electronic devices. FIG. 5 illustrates a second preferred example of implementation of the method according to the invention in which a display screen 51 of a television 50 comprises a screen portion 52 dedicated to the presentation of a sequence of images 53 We wish to receive the sequence 53 by means of a camera 54 of a portable telephone 56. Beforehand, the alignment step 141 (FIG. 1) is carried out aiming to place the camera 54 of the telephone 56 opposite the portion screen 52 and to approach this camera 54 sufficiently to the portion 52 so that the whole of each image of the sequence 53 is well detected by the camera 54. To do this, the screen portion 52 comprises a frame 520 which borders the images of sequence 53 and which serves as a guide for a user. According to variants not illustrated of this second preferred example, the screen portion 52 may include any type of suitable marker, for example, a marker that can take any suitable shape and placed in the center of this portion 52, a marker in the form of a nest. bee or even an asymmetric landmark. The alignment can be obtained by means of a liquid crystal display device 55 (LCD for Liquid Crystal Array in English) integrated for example, on the back of the mobile phone 56 which allows the user, looking at this device display 55, to ensure that the image 57 of the reference frame 520 substantially borders the display device 55. According to this embodiment, this display device 55 can be the display screen 32 of the telephone 56. The camera 54 can be pivotally mounted on the portable telephone 56. According to a variant not illustrated of this embodiment, the display device 55 is distinct from the display screen 32 of the portable telephone 56, by example in the case of a “clam shell” type telephone. Again, this alignment can also be obtained automatically by means of suitable software implemented in the telephone 56. The coding step 11 (of FIG. 1) of the digital data to be transmitted, making it possible to obtain the image sequence, was previously implemented in a server, for example by the television operator. The conversion step 15 (FIG. 1) of the image sequence into digital data is carried out in the portable telephone. This makes it possible to provide a new technique for transmitting digital data, wirelessly, from a display screen such as a television, a cinema screen or a computer screen connected to the Internet to a mobile telephone, without adding any equipment, by simply diverting the conventional use of the on-board camera. This new broadcast-type communication technique makes it possible to quickly load a few bytes from a visual medium to a telephone. These bytes can be commercial information, SMS messages, logos, phone ringtones, wallpaper images, contact details, games, or even any other entity in the form of digital data. All these entities can be stored on the mobile phone and then used to initiate communication or to participate in a game by SMS message. In an example of an application, a person wants to buy a teleshopping product, he can place his mobile phone in front of the screen portion of his television dedicated to the presentation of the image sequence in order to acquire data on the product so that you can then pay via your mobile phone. Another application example is Internet shopping. A simple animation in Flash language presents a sequence of images containing, for example, the main purchase information, a user receives it by means of his mobile phone. It is also possible to provide, on an Internet site, for certain pages to permanently broadcast sequences of images according to the invention (allowing for example to download a telephone number to call).

Claims

1. Method for transmitting digital data to at least one portable electronic device equipped with a camera, characterized in that it comprises the following steps: - coding a set of digital data to be transmitted to at least one portable electronic device , associating with said data a time sequence of at least two images and / or image portions representative of said data according to at least one predetermined visual coding rule; - presentation of images comprising said sequence of at least two images and / or image portions, on at least one display screen; - taking pictures using said camera, directed towards said display screen, to obtain said sequence in said device; - Conversion, in said device, of said sequence to said set of digital data, as a function of said coding rule or rules. 2. Transmission method according to claim 1, characterized in that said coding implements a first rule consisting in associating with each color of a plurality of colors a distinct word of at least one bit. 3. Transmission method according to claim 2, characterized in that it implements 2 "colors, associated respectively with 2" words of n bits each, with n integer and n> 1. 4. Transmission method according to claim 3, characterized in that n = 1. 5. Transmission method according to any one of claims 1 to 4, characterized in that said coding implements a second rule consisting in decomposing each image or portion of image into at least two regions each coding a word of at minus a bit. 6. A transmission method according to claim 5, characterized in that said regions are defined in the form of identical patterns. 7. Transmission method according to claim 6, characterized in that each image or portion of image comprises a set of patterns organized in a matrix. 8. A transmission method according to claim 7, characterized in that said patterns are squares and in that each image or portion of image comprises 16 squares or rectangles distributed in 4 rows and 4 columns. 9. A transmission method according to any one of claims 1 to 8, characterized in that said conversion step is preceded by a synchronization step. 10. Transmission method according to claim 9, characterized in that said synchronization step allows at least one of the following operations: - alignment, making it possible to locate the position and / or to adjust the size of the image and / or the image portion; - time synchronization, consisting in identifying the start, the end of said sequence and / or configuration information on said sequence; - adaptation of colors and / or brightness, allowing the said device to be calibrated. 11. A transmission method according to any one of claims 9 and 10, characterized in that said sequence comprises at least one image or portion of synchronization image, delivering information known to the device or determinable by the latter. 12. A transmission method according to any one of claims 9 to 11, characterized in that at least some of said images and / or image portions carries at least one marker making it possible to identify the position and / or to adjust the size. of the image and / or of the image portion. 13. A transmission method according to claim 12, characterized in that at least one of said pins form a frame. 14. Transmission method according to any one of claims li to 13, characterized in that said device comprises means for capturing said information and means for signaling the obtaining and / or not obtaining said alignment. 15. Transmission method according to any one of claims 1 to 14, characterized in that said step of presenting images is carried out using a visual medium belonging to the group comprising: - televisions; - cinema screens; - computer screens; - portable device screens. 16. Image signal comprising a sequence of at least two images and / or portions of image coded and transmitted according to the method of any one of claims 1 to 15, associating with data to be transmitted a time sequence of at least two images and / or image portions representative of said data according to at least one predetermined visual coding rule. 17. Portable electronic device equipped with a camera, characterized in that it comprises means for receiving digitally coded digital data, comprising means for converting a time sequence of at least two images and / or portions of image taken by said camera into data, said image or images and / or portions of images being formed on transmission according to at least one predetermined rule to be representative of said data. 18. Device according to claim 17, characterized in that it belongs to the group comprising: - mobile telephones; - personal assistants; - portable computers. 19. Application of the transmission method according to any one of claims 1 to 15 to the dissemination of at least one of the information belonging to the group comprising: - the call numbers; - logos; - ring tones; - Games ; - ads ; - information ; - weather reports; - article references; - address books; - commercial offers. 20. Application of the transmission method according to any one of claims 1 to 15 to the transmission of information from a computer screen to a portable electronic device. 21. Application of the transmission method according to any one of claims 1 to 15 to the exchange of data between two portable electronic devices. 22. Device for transmitting visual data according to the method of any one of claims 1 to 15, characterized in that it comprises means for coding a set of digital data to be transmitted to at least one portable electronic device, associating said data a time sequence of at least two images and / or image portions of said data representative of at least one visual ^{predetermined} encoding rule to enable presentation of said at least two image sequence and / or portions image on at least one display screen.