FR2947652A1 - Detector and coding information synchronizing device, has medium with series of coding information that parameterize detector with medium to generate steps related to scenario proposed by medium and vocal indications emitted by detector - Google Patents

Abstract

The device has an information medium (1) i.e. book, including a series of coding information (3) formed by a conductive or non-conductive ink. An autonomous detector is constituted by a reading head for contacting the detector device with a part of the information, an electronic circuit for decoding the information, an energy source, an electronic vocal synthesis circuit and a memory. The information parameterize the detector with the medium to generate steps related to scenario proposed by the medium and vocal indications emitted by the detector.

Description

The present invention relates to an improved device for synchronizing a detector and information carried on a support. In the French patent FR2597212 there is described an assembly for verifying information comprising a support comprising a series of identified areas that are conductive or insulating and having the same visual appearance and a detector formed of an elongate body incorporating a read head adapted to provide a electrical contact with the identified areas, said reading head to slide in the body to trigger the launch of the measurement when the user is just above the information area. This set is used to allow interactivity between the user of the detector and information disposed on an information medium such as a book. For example, animals are represented on a page of the book and the question asked could be: Show me mammals. The user will have to put his detector on the representation of the chosen animal and the detector will determine, by the presence or absence of a conductive ink on the representation, if the answer is good or false. This system has the disadvantage of limiting interactivity between the user and the information carrier. In addition, in the case where one targets the same detector for a multitude of information carriers, the detector software must be able to identify the medium used by the user to adapt to the types of information presented. The present invention overcomes this disadvantage. It is aimed at a system of the type in question where the coding information between the detector and the information carrier is printed on said information carrier and that the detector is able to decode this information in order to parameterize its operation. This improved device for synchronizing a detector and information carried on supports comprises at least one support (1) comprising a series of information (3) formed by conductive or non-conducting ink and an autonomous detector device consisting of: a head reading device intended to ensure contact with at least a part of said series of information, an electronic circuit for decoding said information, an electronic speech synthesis circuit and a memory, characterized in that said series of information make it possible to parameterize the autonomous detector device with the type and scenario proposed by said information carrier. The way in which the invention can be realized and the advantages which result therefrom will emerge more clearly from the following exemplary embodiments, given by way of non-limiting indication, in support of the appended figures. Figure 1 shows an example of a position where the coding information can be positioned. In this example, the encoding information (3) is printed on a page (2) of a book (1). Fig. 2 shows an exemplary embodiment of the coding information (3) in the form of printed pellets (30 to 34). FIG. 3 shows a particular embodiment of the invention with two separate tables of data indexed by the code provided by printed pellets using 3 different resistivity levels of the conductive ink used.

In a preferred form of the invention, the assembly consists of different media comprising series of information and an electronic detector capable of emitting sensory signals when in contact with specific information. These supports can advantageously be made by paper supports such as, for example, books. In these books including text and graphic illustrations will be printed using conductive ink or not, areas of information that the user will be able to test with his detector. The user must walk his detector on the book to discover, for example and following the scenario chosen by the director of the books, an intruder or error. In the context of this invention, it is a question of being able to parameterize the detector so that it adapts to the type of scenario envisaged in such or such an information medium. The read head of the detector is formed of a stack of conductive and insulating silicone materials well known to those skilled in the art. It is therefore planned to print, for example, on each page, or at the beginning of the work, coding information that will provide the detector with the parameters necessary for its operation. For example, this coding information is formed of several pellets printed with ink with several levels of electrical resistance. The code defined by these printed pellets will index at least one array of data whose lines correspond to a unique value of the code. The values in the columns define actions. These actions may be the generation of words by the device and / or actions performed by the microcontroller (control buttons, lights, navigation in the scenario) In a first embodiment, we use 2 different levels of electrical resistivity and 5 printed pellets. The two levels of resistivity may be, for example, less than 80 KOhms for the first and greater than 1 MOhms for the second. When the reader is started or after resetting, the user positions it successively on the 5 printed pellets. During this operation, the reader will always generate the same sequence of words. For example, to guide the user, the reader will say one, then two, then three, then go, then my kiki after each press on the printed tablets.

The first 3 printed pellets will define the type of game that will be used. For example, if the code read is 000, the game will match to find an association of X images, if the code is 001, the game will consist of X Quiz Questions-Answers, if the code is 010, the game will be find X intruders among figures represented on the page of the book. The last two pellets will define the value of X. In a second example (Fig.3), the number of different electrical resistivity is 3 and we will also use 5 printed pellets.

The 5 pellets make it possible to create 3 to the power (x) values. For example, if x = 5, the number of different codes will be 243. In one embodiment, it will thus be possible to define 12 books of 20 pages. These 243 codes give access to the contents of a table Ti and a speech memory T2 whose structure and content may vary according to the scenarios chosen by the creator of the information carriers. For example, and without being limited in the type and the number of information present, the table T1 can be the following one (for the sake of clarity, only one line has been filled with data): CODE Title Page Game type Number of games 0 1 128 3 14 4 5 243 25 Here, the content of the table T2 could be as follows: The data contained in the line 128 of said first table T1 will make it possible to obtain the information necessary for the management of the speech synthesis present in the second table T2. Notably, this is book 10 number 3: The animal book, the type of game will be the type intruder and wild animals, finally, the detector will offer 5 games. In this example, if the code (C) read is 128, the detector will pronounce you took the animal book and we will make game of the intruder with the wild animals. In this example, the pronounced sentences are constructed with the sentences parameterized by code 128: the book of animals, intruders and wild animals. In this embodiment of the invention, the coding information consists of conductive ink with several resistivity values. For example, an ohmic value of the ink will be greater than 500 KOhms, (insulating ink), a second between 200 and 300 KOhms and a last less than 80 KOhm (conductive ink). This particular mode makes it possible to further refine the number of different codes available. In the proposed example, where the information carrier proposes 5 coded pellets, 243 possibilities are thus defined. CODE Phrase 3 The Animal Book 4 Intruders 14 Wild Animals5

Claims (10)

REVENDICATIONS1. An improved device for synchronizing a detector and information carried on media, comprising: at least one carrier (1) having a series of information (3) formed by conductive ink or not, an autonomous detector device consisting of: a read head intended to ensure contact with at least a part of said series of information, an electronic circuit for decoding said information, a power source, an electronic speech synthesis circuit and a memory, characterized in that: series of information (30,31,32,33,34) makes it possible to parameterize said autonomous electronic device with said information medium (1) and, in that said parameterization generates the steps related to the scenario proposed by said medium of information (1) and voice prompts issued by said detector. 2. Device according to claim 1 characterized in that said coding information (3) consist of pellets printed with ink, conductive or not, on said information carrier (2). 3. Device according to the preceding claims, characterized in that said coding information (3) are five in number. 4. Device according to the preceding claims, characterized in that said coding information (3) is printed on said information carrier (15) with conductive inks having different electrical resistivity values. 5. Device according to the preceding claims, characterized in that said memory contains at least one structured data table whose each line is uniquely addressed by the value of a coding information (3), and in that the data present in the columns define at least two types of actions: generation of words by said electronic speech synthesis circuit, and - actions performed by said electronic circuit, such as controlling buttons, lights, navigation in the scenario. 6. Device according to claim 4, characterized in that said memory contains two tables (T1, T2) of data integrating information related to several information carriers. 7. Device according to the preceding claim, characterized in that the first table (T1) defines the information related to the structure of the information carrier. 8. Device according to the preceding claim, characterized in that the value of said code (C) indexes a line of said first table (Tl). 9. Device according to the preceding claim, characterized in that at least one information of said table (Tl) indexed by said code (C) is used to index (I) the second table (T2). 10. Device according to the preceding claim, characterized in that said second table (T2) defines the information that will be provided to the electronic voice synthesis circuit.