EP1649386A1 - Method and device for forming an output information set from at least two input information sets - Google Patents

Abstract

The invention relates to a method of forming an output information set from at least two input information sets, said information being given in a markup language containing elements from the information sets. The invention is characterised in that the method comprises the following steps consisting in: reading one key from a set of keys, said key comprising conditions for matching at least one element from an input set and/or information associated with an element from an input set with at least one element from the other input set and/or information associated with an element from the other input set; verifying if the matching conditions are satisfied, and, if so, reading at least one processing to be performed, from the set of keys, said processing being associated with the aforementioned key; and forming the output information set according to the processing associated with the key. The invention also relates to the associated device.

Description

 Method and device for forming a set of output information from at least two sets of input information

The present invention relates to a method and a device for forming a set of output information from at least two sets of input information, the information being described in a markup language framing elements of the sets of information. Currently, data exchanges between communication devices such as computers are carried out by means of document transfers presented in a markup language of the Extensible Markup Language type or XML (in English "eXtensible Markup Language"). This XML language is a markup language, that is to say a language that presents information framed by tags. The XML language was created by the W3C acronym for the World Wide Web Consortium. According to XML, the developer creates his own tags in order to precisely identify the content of the data included in said tags. The merging of XML documents is known in the state of the art. For example, when two XML files have the same element at the same

value, the sub-elements as well as the information associated with an element in one document are inserted in the other document after the element. The associated information is in the case of XML, commonly called attributes. One or more attributes can be associated with an element. This merger is carried out automatically and systematically. The criteria used for the merge are simple and the merge is performed on sets of information of simple structure. The insertion of information into an element does not allow the enrichment of a document according to complex criteria and conditions while providing a structured final document. The merging of independently edited and / or modified XML files in a multi-publishing context is also known. According to this technique, the different elements of the edited documents having the same attribute are detected. According to this technique, differences in documents are detected before they are merged into a document to form a final file. This is done automatically and this on all elements and / or attributes or on certain elements and / or attributes only if they are identified by specific tags. Adding such tags in documents makes each document more complex and longer. In addition, according to this technique, the fusion of elements having several common attributes is not feasible. Thus, the solutions proposed in the prior art do not allow document merges to be carried out according to multiple criteria. The solutions of the state of the art do not make it possible to merge elements having the same field value, whether textual or numerical, into one of the sub-elements of the file to be enriched. Also, the solutions of the state of the art do not allow elements of a so-called main file to be replaced by elements of another so-called secondary file or to insert elements of the secondary file into the main file. not existing in the main file. In addition, the prior art solutions do not make it possible to transform elements of the main file into attributes of elements or to transform attributes of elements of the main file into elements. Finally, it is not possible according to the state of the art to enrich a document with elements according to a priority allocated to these elements. The invention aims to solve the drawbacks of the prior art by proposing a method of forming a set of output information from at least two sets of input information, the information being described in a markup language framing elements of information sets, characterized in that the method comprises the steps of reading, in a set of keys, at least one key comprising conditions for matching at least one element of an input and / or information set associated with an element of an input set with at least one element of the other input and / or information set associated with an element of the other set of input, verification if the matching conditions are met, and if so, reading in the key set of at least one treatment to be performed associated with the or each key read, training of a set of inform output ations according to the or each processing associated with the or each key read and transfer of the set of output information. Correlatively, the invention provides a device for forming a set of output information from at least two sets of input information, the information being described in a markup language framing elements of the sets of information, characterized in that the device comprises means for reading, in a set of keys, at least one key comprising conditions for matching at least one element of an input set and / or d information associated with an element of an input set with at least one element of the other input set and / or information associated with an element of the other input set, means of verification if the conditions for matching are met, and if so, means for reading in the set of keys at least one processing to be performed associated with the or each key read, means for forming the set of output information according to the processing associated with the or each key read and the means for transferring the set of output information. Thus, it is possible to carry out information processing operations such as files comprising information described in a markup language according to multiple conditions. By creating a set of keys, for example in the form of a file, and by associating with each of these keys one or more treatments, it is possible to form an output set from information present in at least two sets of input information in a simple and flexible manner. The set of output information is thus adapted to all the possible situations considered in the key file. In addition, the set of keys is described in a markup language, the or each key is included between tags and the or each processing to be performed associated with the or each key is included between the tags including the or each key. Thus, the sets of information, the set of keys are described in the same markup language, which simplifies the method and the device according to the invention. In addition, the association between a key and the treatment or treatments associated with this key is carried out in a simple manner. The key as well as the associated processing (s) being included in the same tags, the association is implicit. It is then no longer necessary to explicitly associate the associated processes with the keys by adding information to the set of keys. The set of keys is then more compact. More precisely, the conditions for matching are conditions for identity of information values associated with an element of an input set with information values associated with an element of the other information set d 'Entrance. Advantageously, the conditions for matching are conditions for identity of information values associated with a plurality of elements of an input set to information values associated with a plurality of elements of the other set of input information. Thus, it is possible to realize complex matching conditions. Several conditions can thus be used for the same key, which thus allows a formation of the set of output information adapted to different situations. More specifically, one set of input information is primary and the other sets of input information are secondary, and the set of output information includes the elements of the set of primary input information and inserted elements, said inserted elements being elements of one of the sets of secondary input information. Thus, it is possible to enrich a set of information with elements of at least a second set of information. The enrichment of a whole information by simple additions simplifies the formation of the output information set. More specifically, the processing to be carried out is an insertion into an element of the set of output information of at least one element of a set of secondary input information. Thus, an element of the output information set is enriched by an element of a secondary input information set. Also, the processing to be carried out is an erasure of an element of the set of output information and an insertion in place of the element erased of at least one element of a set of secondary input information . Thus, it is possible to replace elements of a set of primary input information with elements of a set of secondary input. The set of output information is formed with great flexibility in enrichment. Advantageously, the processing to be carried out is an insertion of information associated with an element of a set of secondary input information, said information associated with an element being inserted in the form of an element in the information set Release. Thus, information associated with an element of a secondary input information set such as attributes of an element is transformed in the output information set into elements. The formation of the output assembly is thus very flexible and adapted to multiple situations. Also, the processing to be performed is a creation of an element in the set of output information and an insertion of an element of a set of secondary input information in the element of the set of output information created. More precisely, criteria for inserting at least one element of an input set into the output information set are determined, and the output information set is formed in accordance with the determined criteria. Thus, it is possible to form a set of output information as a function of multiple criteria independent of the conditions defined by the keys included in the key file. More specifically, the insertion criteria are determined from a predefined structural diagram of the set of output information and / or of priorities allocated to the element or to the information associated with an element of the secondary set to insert and / or an enrichment threshold for the set of output information. Thus, the set of output information is compatible with a predefined structural diagram. It is then easier for a telecommunication device receiving the set of output information to process it. In addition, by allocating priorities, it is possible to classify the information inserted in an order of importance. Also, by having an enrichment threshold as an insertion criterion, it is possible to control the enrichment of a main set of information. The enrichment can thus be adapted to the conditions of the telecommunications network into which the set of output information is transferred. The set of output information can thus be enriched with a large amount of information when the telecommunications network has a high bandwidth or the set of output information can thus be enriched with a low amount information when the telecommunications network has a relatively low bandwidth. This then makes it possible to avoid that the telecommunications network is saturated and that the set of output information is not received by a telecommunications device connected to this telecommunications network. Advantageously, an element and / or the information associated with an element are inserted into the output information set in accordance with a predefined structural diagram of the output information set. Thus, it is possible to insert information at different places in the output information set and this in accordance with a predefined structural diagram. More specifically, if the priority allocated to the element or the information associated with an element of the inserted or inserted secondary assembly is greater than the enrichment threshold of the output information set, the element or the information associated with an element of the inserted secondary input information set is deleted from the output information set or the element or information associated with an element of the secondary input information set insert is not inserted. Advantageously, the information in the output information set is information describing at least one audiovisual program. More specifically, information describing at least one audiovisual program in a predetermined format is transcoded into a set of information described in markup language. Thus, by using information describing at least one audiovisual program in a predetermined format, the formation of the set of output information is simplified. Advantageously, the set of information transcoded and described in a markup language forms part of the set of output information, the other part being formed by elements and / or information associated with an element of other sets of input information. Thus, it is possible to enrich information succinctly describing at least one audiovisual program with other information stored for example in a database. More specifically, the predetermined format conforms to the DVB standard and the set of output information is described in markup language and is transmitted over an Internet type network. DVB is the acronym for Digital Video Broadcast or digital video broadcasting in French. The invention also relates to the computer program stored on an information medium, said program comprising instructions making it possible to implement the method described above, when it is loaded and executed by a computer system. The characteristics of the invention mentioned above, as well as others, will appear more clearly on reading the following description of an exemplary embodiment, said description being made in relation to the accompanying drawings, among which: FIG. . 1 represents a block diagram of the various constituent elements of the present invention; Fig. 2 represents a block diagram of the various constituent elements of the present invention in a particular mode of enriching audiovisual description data; Fig. 3 represents a block diagram of the device for enriching a set of information described in a markup language from at least one another set comprising information described in a markup language according to the invention; Fig. 4 represents the algorithm for enriching a file comprising a set of information described in a markup language from at least one other file comprising information described in a markup language; Fig. 5 represents a priority allocation file according to the invention; Figs. 6a and 6b represent conversion tables of a set of metadata containing a television program described according to the DVB-SI standard into a set of metadata conforming to the TV Anytime specification described in a markup language.

Fig. 1 represents a block diagram of the various constituent elements of the system according to the present invention. The system according to the invention forms an output set enriched with information described in a markup language such as XML language from several sets of information described in a markup language such as XML language. These sets are noted 10, 1 la and 1 lb in FIG. 1. It should be noted here that other markup languages can also be used in the present invention. These languages are for example and in a nonlimiting manner the HTML language or the SGML language. HTML is the acronym for HyperText Markup Language or hypertext markup language. SGML is the acronym for Standard Generalized Markup Language or standard generalized markup language. The formation, or more precisely the enrichment of the set of information is carried out by a mixer filter 12 from an XML scheme 14 and more precisely according to enrichment criteria 13. The invention as described is used in different application areas. The transmission of information to telecommunication terminals such as mobile telephone terminals is a field of application of the present invention. In fact, depending on the availability of the telecommunications network or the characteristics of the telecommunications terminals, the present invention enriches or creates the set of XML output information from one or more several sets of input information described in XML. According to the invention, a main set of slightly enriched XML information is transmitted to mobile telephone terminals, while a more enriched set of information is transmitted to telecommunication terminals such as computers connected to an Internet network. The invention is also particularly advantageous in the dissemination of information associated with audiovisual programs on broadcasting networks such as, for example, the Internet. In this type of application, metadata representative of the audiovisual content transmitted are transmitted to the client reception device. These metadata are for example and without limitation the guide to the audiovisual programs transmitted, or for a predetermined audiovisual program, descriptive data of this program such as its title, a summary and / or detailed description thereof, a description of one or more actors playing in the audiovisual program or one or more reviews of it. The semantics as well as the syntax of these metadata are for example in conformity with those described according to the XML language by the TV Anytime forum. Depending on the availability of the communication network, it is advantageous to be able to enrich this data with other information when the bandwidth available in the telecommunications network 16 allows it. The telecommunications network 16 is for example an Internet type network. The main set of XML information 10 is for example made up of the basic elements of a description of an audiovisual program such as the title and the genre of the audiovisual program. The secondary set of information XML lia is for example made up of other information relating to the same audiovisual program such as the summary thereof, its synopsis, keywords associated with it, reviews as well as the time start and end of the audiovisual program. The secondary set of XML data 1 lb is for example made up of other data relating to the same audiovisual program such as for example the list of actors playing in this audiovisual program, or even bibliographic information on these. The XML schema 14 describes the syntax of the enriched XML output set 15. According to the invention, the XML mixer filter 12 uses the XML schema 14 to verify that each element contained in the enriched XML output set 15 conforms to the description of the element in which the content of the secondary set of XML information 1 a is inserted. Among other things, a schema defines a structure for XML documents. The XML mixer filter 12 enriches the main XML set 10 with one or more elements from the secondary file (s) 1 a and 1 lb. In a particular embodiment of the invention, the enrichment is carried out according to criteria inter alia defined by a key file 13a making it possible to designate the enrichment criteria 13. Here we mean by enrichment, an insertion in an element of the output information set of at least one element of a secondary input information set or a deletion of an element of the output information set and an insertion instead of the element deleted from at least one element of a set of secondary input information or an insertion of information associated with an element of a set of secondary input information, said information associated with an element being inserted as an element in the output information set or an insertion of an element in a secondary input information set and a creation of an element in the output information set , the element ent created comprising the element inserted in the output information set. It should be noted here that the various treatments previously mentioned can be combined with each other. Other enrichment criteria such as priority criteria 13b, or an enrichment threshold 13c can also be used for enrichment. A key file 13a is made up of a set of keys, each key possibly comprising actions or processing to be carried out. These keys are grouped under a root called keybag. For example, only one key is included in this key file. A key defines the conditions for which the action associated with the key must be performed. The mixer filter 12 thus enriches the main set XML10 with elements from the secondary set XML 1a according to predetermined criteria. According to this example, the key maps an element of the main XML 10 set designated by a path with one or more elements of the secondary set XML l ia. The mixer filter 12 then determines the rule for inserting the element (s) from the secondary set XML l ia into the main set 10 and inserts these in accordance with the rule defined by the XML scheme 14. Finally, the mixer filter 12 determines the priority (s) 13b of the element or elements inserted and checks whether these or these are compatible with the threshold 13c. If the threshold is higher than these priorities, the element or elements inserted are removed from the main assembly 10. FIG. 2 shows a block diagram of the various constituent elements of the present invention in a particular mode of enriching audiovisual description information. The system according to the invention enriches or creates an enriched output set 214 of information described in a markup language such as XML language from several sets of information described in a markup language such as XML language. These sets are denoted 201 and 205. In this particular embodiment, the main XML set 201 is obtained by a transcoder 202 of metadata transmitted by a source delivering information conforming to the DVB-SI standard of a network of DVB 204 telecommunication. DVB-SI is the acronym for Digital Video Broadcast Service Information or digital video broadcasting service signaling. The transcoder 202 performs transcoding from the conversion tables 6a and 6b which will be described later, of a set of metadata describing a broadcast audiovisual program described according to the DVB-SI standard into a set of metadata conforming to the TV Anytime specification described in a markup language and thus forms a main XML 201. TV Anytime is a forum specifying metadata and diagrams associated with audiovisual programs broadcast among others on the Internet. Indeed, metadata are also transmitted during the broadcasting of audiovisual programs conforming to the DVB standard. These data are described by the DVB-SI standard and contain little information. According to this particular embodiment of the invention, the audiovisual programs broadcast by the DVB network are also broadcast via the Internet network 217. These audiovisual programs are, prior to their broadcast on the network Internet telecommunications 217, processed by a processing means 216 so as to adapt them to the specifics of the telecommunications network 217. The meta-data transmitted during the broadcasting of audiovisual programs conforming to the DVB-SI standard contain only a few information. The invention will thus transcode and enrich these metadata with additional information prior to their transmission over the telecommunications network 217. This additional information contained in one or more secondary sets XML 205 is obtained from a local or remote database. 207 and are, if necessary, transcoded by one or more transcoders 202 so as to put them in the form of a set of information described in a markup language such as XML. This transcoding will be described more precisely with reference to Figs. 6a and 6b. The formation of the XML output set 214 is carried out by a mixer filter 208 from an XML scheme 213 and more precisely according to enrichment criteria 210, 211 and 212. The telecommunications network 217 is for example a network Internet type. The main XML information set 201 is identical to the main XML information set 10 in FIG. 1. It will not be described further. The secondary XML information set 205 is identical to the secondary XML information set 11 of FIG. 1. It will not be described further. The XML schema 213 is a schema identical to the XML schema 14 of FIG. 1. In this example, it conforms to the schema as defined in the metadata specification of the Anytime TV forum. The XML mixer filter 208 is identical to the XML mixer filter 12. It will not be described further. The priority file 210 is identical to the priority file 13b in FIG. 1. It will not be further explained. The key file 211 is identical to the key file 13a in FIG. 1. It will not be further explained. The threshold file 212 is identical to the threshold file 13c in FIG. 1. It will not be further explained. The priority file 210 as well as the threshold file 212, in the same way as the priority file 13b as well as the threshold file 13b are used according to a variant of the invention. The mixer filter 208 enriches the main XML set 201 with elements from the secondary XML set 205 according to criteria 210, 211 and 212 to form an XML output set 214. The mixer filter 208 then determines the insertion rule of the element (s) from the secondary XML 205 set into the main set 201 and inserts these in accordance with the rule defined by the XML scheme 213. Finally, the mixer filter 208 determines the priority (s) 210 of the inserted element (s) and checks whether these or these are compatible with the threshold 212. If the threshold is lower than these priorities, the element or elements inserted are removed from the enriched XML output set 214. It should be noted that according to a variant of the invention, one or more elements of the main assembly can also be deleted if their priorities are of higher importance than the threshold. Fig. 3 represents a block diagram of the device for enriching a set of information described in a markup language from at least one set comprising data described in the same markup language according to the invention. This device 30 is adapted to form a set of information described in a markup language from at least one other set comprising data described in the same markup language according to keys, priorities, an enrichment threshold and according to a schema to control the syntax of the rich XML output set. The device 30 is for example a microcomputer. It can also be integrated into a means of broadcasting metadata intended for means of viewing sequences of video images such as a television set or any other device for generating set of information intended for receiving terminals such as mobile phones. The device 30 comprises a communication bus 301 to which are connected a central unit 300, a read-only memory 302, a random access memory 303, a screen 304, a keyboard 314, a hard disk 308, a compact disc or CD player / recorder, a communication interface 306 with a first telecommunication network 204 delivering a set of metadata and a second telecommunication network such as the telecommunication network 16 of FIG. 1 or the network of telecommunication 217 of FIG. 2 ensuring the transfer of the enriched output set to destination telecommunication terminals not shown. The hard disk 308 stores the program implementing the invention, as well as the data allowing the enrichment according to the invention. This data is the key file 13a or 211 where each key of the key file 13a or 211 defines the conditions for which the processing or treatments associated with the key must be carried out. These data are also the priority allocation file 13b or 210 which assigns a priority to each of the elements and attributes of the secondary input sets 11a and 11b, respectively to each of the elements and attributes of the secondary input sets 205. These data are also the XML schema 14, respectively the XML schema 213 describing the syntax of the enriched XML output set 1, respectively 214. These data are also a predefined enrichment threshold or determined according to the conditions of the telecommunications network. 16, respectively 217 or according to the characteristics of the destination telecommunications terminal (s) of the enriched XML output set 15, respectively 214. The hard disk 308 also includes the main XML set 10, respectively 201, as well as the secondary sets 1 la and 1 lb, respectively 205. These programs and data can also be read via the compact disc t or received via the telecommunication network 204. More generally, the programs according to the present invention are stored in a storage means. This storage means can be read by a computer or a microprocessor 300. This storage means is integrated or not into the device, and can be removable. When the device 30 is powered up, the programs according to the present invention are transferred into the random access memory 303 which then contains the executable code of the invention as well as the data necessary for the implementation of the invention. The device 30 can also receive the set of information to be enriched 10, respectively 201, the secondary information sets l ia and 11b, respectively 205, from a remote device via a telecommunication network such as the communication network 204 of Fig. 2 and transmit the enriched XML output set 15, respectively 214 to a remote device by via the telecommunications network 16 of FIG. 1, respectively the telecommunications network 217 of FIG. 2. Telecommunication networks 16 and / or 217 are, for example, networks of the Internet type or telephone networks. The telecommunication networks 16 and / or 217 can also be a Hertzian or satellite broadcasting network of audiovisual information with which the enriched XML output assembly 15, respectively 214 is associated. The communication network 204 is for example a broadcasting network Over-the-air or audiovisual information satellite with which metadata is associated. These metadata, after transcoding, form the main input assembly 201. The communication network 204 can also be an Internet type network. The device 30 includes a screen 304 capable of reproducing the enriched XML output assembly 15, respectively 214. The device 30 also includes a keyboard 314 serving as a user interface. By means of this keyboard 314, the user can define the different enrichment criteria of the main assembly 10, respectively 201. FIG. 4 represents the enrichment algorithm of a file comprising a set of information described in a markup language from at least one other file comprising data described in the same markup language. The processor 300 of the enrichment device 30 reads, from memory 302, the program instructions corresponding to steps E400 to E420 of FIG. 4 and loads them into RAM 403 to execute them. In step E400, the processor 300 copies the main XML set 201 respectively 201 and thus creates an XML output set. This set of XML output as will be described below will be enriched with elements and or information associated with elements of the secondary sets 11, respectively 205. In step E401, the processor 300 reads from the hard disk 308 of the enrichment device 30 the first key included in the key file 13a, respectively 211. The keys included in the key file 13a, respectively the key file 211, are part of the group of keys making it possible to merge two elements having the same attribute value, keys allowing to merge two elements having the same attribute value in different tables, keys making it possible to merge elements according to a double criterion. The first key of the key file 13a, respectively 211, obtained, the processor 300 of the enrichment device 30 goes to the next step E402 which consists in positioning itself at the start of the output assembly previously copied in the step E400 and selecting the first secondary set 11a, respectively 205. This operation carried out, the processor 300 goes to step E403 which consists in searching in the output set previously copied in step E400 for the element of the set main considered by the key read in the previous step. This element is for example accessible via a path, defined for example by an expression of the XPATH type in the output set previously copied in step E400. An expression of type Xpath is an expression in accordance with recommendation 16 of November 1999 of recommendation version 1.0 "XML Path Language (Xpath)" issued by the W3C consortium. This operation carried out, the processor 300 checks in step E404 whether an element of the output assembly previously copied in step E400 corresponds to the element of the main assembly considered by the key. If no element of the set copied in step E400 corresponds to the element of the main set considered by the key, the processor goes to step E419. At this stage, the processor 300 checks whether the key file 13a, respectively 211, includes other keys. If so, the processor 300 reads in step E420 the following key from the key file 13a, respectively 211 in the same manner as that described in step E401. The following key read, the processor 300 passes to step E402 which consists in positioning itself at the start of the output assembly previously copied in step E400. The processor 300 then searches in step E403 in the output assembly copied in step E400, the element of the main assembly considered by the key read in the previous step. Once this has been done, the processor 300 checks in step E404 whether an element of the assembly copied in step E400 corresponds to the element of the main assembly considered by the key. If an element of the copied set corresponds to the element of the main set considered by the key, the processor 300 goes to step E405. At this stage, the processor 300 is positioned at the start of the secondary assembly. This operation carried out, the processor 300 then passes to step E406. At this stage, the processor 300 searches in the secondary set XML l ia, respectively 205, the element of the secondary set 11 considered by the key read previously. This element is for example accessible via a path, defined for example by an expression of the XPATH type in the secondary set 11a or in the secondary set 205. It should be noted that this element validates the key. Once this operation has been carried out, the processor 300 checks in step E407 whether an element of the secondary set l ia, respectively 205, corresponds to the element of the secondary set considered by the key and more precisely if their values are identical. If no element of the secondary assembly 1a, respectively 205, corresponds to the element of the secondary assembly considered by the key, the processor goes to step E416. At this stage, the processor 300 checks whether there are other secondary assemblies. If so, the processor 300 reads the following secondary file, in this case, the secondary file 11b and returns to step E405 previously described. The processor 300 then performs steps E405 and E407 in the same manner as that previously described and this for the secondary file 1 lb. If an element of the secondary assembly l ia corresponds to the element of the secondary assembly 11 considered by the key, the processor 300 goes to step E408. At this stage, the processor 300 reads from the key file 13a, respectively from the key file 211, the processing or action associated with the processed key. This action indicates the element or elements of the secondary assembly 11, respectively 205, to be included in the assembly copied in step E400. Then, the processor 300, step E409 searches in the XML schema 14, respectively in the XML schema 213, the rules for inserting the element or elements to be included. The XML schema 14, respectively 213, describes the syntax of the enriched XML output set 15, respectively 214. According to the invention, the processor 300 uses the XML schema 14, respectively 213, to verify that each element contained in the rich XML output set 15, respectively 214, is inserted according to the syntax of the rich output set. The processor 300 then passes to the next step E410 and inserts the element or elements into the main XML 10, respectively 201, at the corresponding position defined by the XML scheme 14, respectively 213. Here we mean by insertion, the insertion into an element of the output information set of at least one element of a secondary input information set or deletion of an element of the output information set and a insertion of the element deleted from at least one element of a set of secondary input information or insertion of information associated with an element of a set of secondary input information, said information associated with an element being inserted as an element in the output information set or an insertion of an element in a secondary input information set and a creation of an element in the sor information set tie, the element created including the element inserted into the output information set. This operation performed, the processor 300 reads in step E411 the priority associated with the element included in the main assembly 11b, respectively 205. This or these priorities are stored in the priority file 13b, respectively in the priority file 210. In the priority allocation file 13b, respectively 210, the priorities assigned to each of the elements and attributes of the sets of inputs 11, respectively 205 are defined. An example of priority allocation file is shown in FIG. . 5. From a figure representative of the priority, the processor 300 assigns a priority to each of the elements. This operation carried out, the processor 300, in step E412, obtains the enrichment threshold 13c, respectively 412. This enrichment threshold has either a predetermined value or a value evolving over time. The enrichment threshold 13c, respectively 212, is representative of a constraint external to the enrichment device 30. This external constraint is for example defined as a function of the maximum speed authorized by the telecommunications network 16 or the telecommunications network 217. This constraint external can also be defined as a function of the characteristics of the destination telecommunication terminals of the enriched XML output set 15 or 214. This operation performed, the processor 300 then checks in step E413 if each of the priorities determined in step E412 is less than the threshold obtained previously in step E407. If a priority of an element or attribute is greater than this threshold, the corresponding element or attribute is deleted from the main set previously enriched in step E410. This operation carried out, or if no priority of an element or an attribute is greater than this threshold, the processor 300 passes to the next step E415. At this stage, the processor 300 checks whether the entire secondary assembly being processed has been processed. If not, the processor 300 returns to step E406 and continues the search for an element of the secondary assembly 11 considered by the key read previously. Steps E406 to E415 are then repeated in the same manner as that previously described. If so, the processor 300 goes to step E416. At this stage, the processor 300 checks whether all the secondary sets have been processed. If not, the processor 300 takes the following secondary assembly and returns to step E405 previously described. If so, the processor 300 goes to step E417. At this stage, the processor 300 verifies whether the whole set copied in stage E400 has been processed. If not, the processor 300 returns to step E403 and continues the search for an element in the assembly copied into the part not yet processed. If so, the processor 300 goes to the next step E418 and checks at this step if all the keys included in the key file 13a, respectively 211, have been processed. If not, the processor 300 goes to the next step E419 and repeats the steps E402 to E418 in the same manner as that previously described. If so, the processor 300 goes to step E420. The main set

10 or 201 has been enriched with elements or attributes from secondary sets

11 or 205 to form a set of enriched XML output 15 or 214. The set of enriched XML output is then transferred to the telecommunications network 16 or 217 or transferred to a database not shown to be stored. It should be noted that as a variant of the algorithm as described in FIG. 4, a secondary set can also be enriched with elements or attributes from other secondary sets. Fig. 5 shows a priority allocation file according to the invention. The priority allocation file 210 is identical to the priority allocation file 13b, only the priority allocation file 13b will therefore be described. The priority allocation file 13b is constituted in the form of a table of four columns denoted 50 to 53 and to each line of the priority allocation file corresponds an element or an attribute of the main set 10 and / or d 'a secondary set 11. Each element or attribute is designated by its path in the entry set to which it belongs, possibly preceded by a suffix representative of the set of which it is a part. It should be noted here that the path of each element or attribute is a path defined by an Xpath expression. The column denoted 50 describes each element or an attribute of the main set 10 and / or of a secondary set 11. The column denoted 51 describes the set of provenance of the element or the attribute of the row of the table . Column marked 52 includes the priority associated with the element or attribute of the table row, and column 53 describes the type of priority allocated to the element or attribute of the table row. Thus, elements or attributes can come from both the primary set 10 and the secondary set 11. Other elements or attributes can also come only from a secondary set 11. Three types of priorities are defined in column 53 of the priority allocation file. A first type of priority is explicit priority. An explicit priority is a priority explicitly defined for an element of the priority allocation file 13b. For example, the gender element of line 54 of the priority allocation file 13b has an explicit priority at the value 2. A second type of priority is inherited priority. An inherited priority is the priority of an element to which the element or attribute refers. For example, the title or "title" element of line 55 of the priority allocation file 13b inherits the priority of the parent element which is the program information table. or "ProgramInformationTable" on line 56. The priority of the title element is then equal to 1. A third type of priority is implicit priority. An implicit priority is a priority that has not been defined. Since the element or attribute does not refer to any element whose priority is explicit or inherited, it is set to a default value equal to infinity. It should be noted here that these priorities can be defined by the processor 300 of the enrichment device 30. The processor 300 periodically analyzes the elements describing the time and date of broadcasting of the audiovisual programs described in the secondary assembly XML 205 or the main XML 201 assembly. By analyzing these elements, the processor 300 determines a priority for each of these elements which is a function of the date and time of broadcasting and creates the priority file 210. FIGS. 6a and 6b represent conversion tables of a set of metadata containing a television program described according to the DVB-SI standard into a set of metadata conforming to the TV Anytime specification described in a markup language. The DVB-SI standard defines service information in DVB-type systems. This service information is the metadata according to the invention. These metadata are taken by the source DVB-SI 203 of FIG. 2 and transferred to transcoder 202. Transcoder 202 will transcribe the metadata conforming to the DVB-SI standard using tables 6a and 6b into a main XML 201 set. The conversion tables 6a and 6b are made up of five columns. Column 60 describes the fields of DVB-SI metadata to be detected in order to be transcoded into a set of information in the form of a markup language. Column 61 describes the type of data associated with this field. This column includes for each field included in column 60 its number of bytes as well as information on the elements necessary for transcoding the field considered. Column 62 also describes the type of data associated with this field as well as the structure thereof. Column 63 describes the field conforming to the TV Anytime specification corresponding to the metadata field of the DVB-SI standard of column 60. Column 64 gives examples of transcoding fields of the DVB-SI standard into elements conforming to the TV Anytime specification to form an XML 201 main set. Line 66 of FIG. 6a describes an example of transcoding the field indicating the start of an audiovisual program according to the DVB-SI standard into a format conforming to the TV Anytime specification. When the transcoder 202 detects among the information received from the source 203 the field comprising the “startTime” information, the transcoder determines the type of data corresponding to this field. From the information contained in column 61 of line 66, the transcoder 203 determines the number of bytes comprising information to be transcoded as well as the type of translation to be performed. According to our example, the dom ées are included in five bytes and the translation must be carried out in accordance with the algorithm as described in ETR 300-468. ETR is the acronym for European Technical Report or in French European Technical Report. The transcoder 202 then determines the type and structure and of the data to be processed. In our example, the data conforms to the UTC and MJD formats of standard EN 300-468. UTC is the acronym for Universal Time Coordinates or universal time coordinates and MJD is the acronym for Modified Julian Date. From this information, the transcoder 202 determines the data associated with the processed field. Once this information has been determined, the transcoder 202 reads from the conversion table 6a the element associated with the DVB-SI field being processed and includes the element in the main XML 201 assembly with the data previously determined. Transcoder 202 performs the same operations as those previously described for line 66 each time it detects a DVB-SI field included in the conversion tables 6a and 6b. Thus, the transcoder 202 puts in a markup language such as the XML language the metadata conforming to the DVB-SI standard. We will now describe some examples of enrichment of an XML 10 or 201 main set. In a first example, the main set of XML information 10 is for example a set describing a Charlemagne audiovisual program in the form:

<TVAMain> <ProgramDescription> <ProgramInformationTable> <ProgramInformation programld = "crid: // w w. Francetelecom.com / FESTIVAL / Charlemagne" fragmentVersion = "3"> <BasicDescription> <Title> Charlemagne, the prince on horseback </ Title > <Genre href = ": x: x"> <Name> soap / melodrama / folkloric </Name> </Genre> </BasicDescription> </ProgramInformation> </ProgramInformationTable> </ProgramDescription> </TVAMain>

The secondary set of XML information ia is a set describing a Charlemagne audiovisual program in the form:

<TVAMain><ProgramDescription><ProgramInformationTable><ProgramInformation programld = "crid: //www.fr ancetelecom.com / FESTIVAL / Charlemagne" fragmenfVersion = * '4 "><BasicDescriptiori><Title> Charlemagne, the prince on horseback </ Title><Synopsis> The Kingdom of the Franks, in 768 in Saint-Denis Pépin-le-Bref, the first king of France, reigned over a territory stretching from the Pyrenees to Friesland and from Brittany to Bavaria. is 26 ... </Synopsis> <Keyword> Xavier </Keyword><Keyword> charlemagne </Keyword></ B asicDescription></ProgramInformation></ProgramInformationTable><ProgramLocationTable copyrightNotice = "France Télécom 2003"><Schedule serviceIDRef = "3"><S cheduleEvent ><Program crid = "crid: //www.francetelecom.com/FESTIVAL / Charlemagne"/><PublishedStartTime> 2000-05-31T12: 10:00 </PublishedStartTime><PublishedDuration> P 1 Y2M3DT01 H30M00S </PublishedDuration>< / S cheduleEvenO </Schedule></ProgramLocationTable><ProgramReviewTable><Program crid = "crid: //www.fr ancetelecom.com/FESTIVAL/Charlemagne"/><Review><FreeTextReview> A very good film on a contemporary subject which will be of interest to all audiences </FreeTextReview><Reviewer><PersonName><mpeg7:GivenName> Michel </ mpeg7: GivenName></PersonName><Reviewer></Review></ProgramReviewTable></ ProgramDescription ></TVAMain>

The XML 14 schema is in the form:

<element name = "ProgramInformation" type- 'ProgramInformationType "/> <complexType name = "ProgramInformationType"><sequence><element name = "BasicDescription" type- 'BasicContentDescriptionType "/></sequence><attribute name =" programld "type =" tva: CRIDType "use =" required "/></complexType>

<complexType name = "BasicContentDescriptionType"> <sequence> <element name- 'Title "type =" mpeg7: TitleType "maxOccurs =" unbounded "/> <element name =" Synopsis "type =" tva: SynopsisType "minOccurs- O" maxOccurs = "unbounded" /> <element name = "Keyword" type = "tva: KeywordType" minOccurs = "0" maxOccurs = "unbounded" /> <element name = "Genre" type = "tva: GenreType" rninOccurs- ' O "maxOccurs =" unbounded "/> </sequence>

It should be noted that the XML schema 14 previously described is an extract from the metadata schema of the TV Anytime specification. From this same first example, the key file is of the form:

<Keybag xmlns: xsi- 'http://www.w3.org/2001/XMLSchema-instance "xsi: noNamespaceSchemaLocation =" clef.xsd "> <Key test-' P: TVAMain / ProgramDescription ProgramInformationTable / Programinformation [@programld] == S: ProgramInformation [@programld] "> <Action type =" merge "element =" ProgramInformation "/> </Key> <Keybag>

The XML mixer filter 12 enriches in accordance with the algorithm as described in FIG. 4, the main XML set 10 with one or more elements of the secondary file l ia as a function of the key file 13a to form an enriched XML output set 15 of the form: <TVAMain><ProgramDescription><ProgramInformationTable copyrightNotice = "String"><ProgramInformation programld ^{: = ::} "crid: //www.fr ancetelecom.com / FESTIVAL / Charlemagne"><BasicDescription><Title> Charlemagne, the prince on horseback </Title><Synopsis> The Kingdom of the Franks, in 768 in Saint-Denis. Pépin-le-Bref, first king of France, reigns over a territory which extends from the Pyrenees to Friesland and from Brittany to Bavaria. Charles is 26 ... </Synopsis><Keyword> Xavier </Keyword><Keyword> charlemagne </Keyword><Genre href = ": x: x"><Name> soap / melodrama / folkloric </Name></Genre></BasicDescription></ProgramInformation></ProgramInformationTable></ProgramDescription></TVAMain>

As we see in this first example, the key file 13a comprises a key for matching an element of the main set 10 designated by the path TVAMALN / Program / ProgramlnformationTable / Programlnformation with one or more elements of the secondary assembly l ia. In this example, two elements of the secondary set l ia are merged into the main set 10 since their attribute values programld are equal. It should also be noted that the enriched XML output set 15 conforms to the XML scheme 14. In a second example, the main set of XML information 10, the secondary set XML l ia, the XML scheme 14 are identical at first example. The key file 13a is different. The diagram of the keys 13a is of the form:

<Keybag xmlns: xsi = "http: // www. W3.org/2001 / XMLSchema-instance" xsi: noNamespaceSchemaLocation = "clef.xsd">

<Key test = "P: TVAMain / ProgramDescription ProgramInformationTable / Program

Information [@programld]

== S: ProgramLocationTable / Schedule / ScheduleEvent [@CRID] "> <Action type =" merge "element- 'ProgramLocationTable / Schedule / ScheduleEvent" /> <Action type = "merge" element = "ProgramLocationTable / @ copyrightNotice" primarySetNode = "TVAMain ProgramDescription" /> </Key> </Keybag>

The key file 13a includes a key for matching an element of the main assembly 10 designated by the path:

TVAMain ProgramDescription ProgramlnformationTable / Programlnformation with one or more elements of the secondary set l ia designated by the path ProgramLocationTable / schedule / scheduleEvent. Two elements are matched to enrich the main XML 10 set if the CRID attribute of the secondary element l ia is equal to the programld attribute of the main element 10. CRID is the acronym for Content Reference Identifier or content reference identifier. Two actions are associated with this key. The first action has two attributes specifying the type of insertion, here a simple merge. A simple merge is an insertion, if the element already exists in the main XML set 10, of an element of the secondary set 1 la to complete the existing element of the main set XML 10. The first action comprises also information indicating which element should be inserted. This is the element

ProgramLocationTable / Schedule / ScheduleEvent on which the test was performed. It should be noted here that any other element of the secondary set can be specified in place of this element. The XML mixer filter 12 enriches in accordance with the algorithm as described in FIG. 4, the main XML set 10 with one or more elements of the secondary file 1 a as a function of the key file 13a to form an enriched XML output set 15 of the form:

<TVAMain> <CopyrightNotice> France Télécom </CopyrightNotice> <ProgramDescription> <ProgramInformationTable>

</ProgramInformationTable> <ProgramLocationTable> <Schedule service ID Ref = "3"> <ScheduleEvent> <Program crid = "crid: //www.francetelecom.com/FESTIVAL / Charlemagne" /> <PublishedStartTime> 2000-05-31 T12 : 10:00 </PublishedStartTime> <PublishedDuration> P 1 Y2M3DT01 H30MOOS </PublishedDuration> </ S cheduleEvent> </Schedule> </ProgramLocationTable> </ProgramDescription> </TVAMain>

In a third example, the key file 13a comprises a key for mapping an element from the main XML set 10 designated by the path TVAMain / ProgramDescription ProgramlnformationTable / Programlnformation with one or more elements from the secondary sets 11 designated by the Programlnformation path. Two elements will enrich the main XML set 10 if the programld attribute of a secondary set 11 is equal to the programld attribute of the main XML set 10 and if the version attribute of the main XML set 10 is lower to that of the secondary XML file 11. The action performed in this case is the merging of the Programlnformation element into the main XML 10 set. The key file 13a is in this third example of the form:

<Keybag xmlns: xsi = "http://www.w3.org/2001/XMLSchema-instance" xsi: noNamespaceSchemaLocation = "clef.xsd"> <Key test = "(P: TVAMain / ProgramDescription / ProgramInformationTable / Programlnformation [@ programld] == S: ProgramInformation [@Programld]) AND (P: TVAMain / ProgramDescription / ProgramInformationTable / ProgramInformation [@version] &It; S: Programinformation [@version]) "> <Action type- 'merge" element = "ProgramInformation "/> </Key> <Keybag>

In a fourth example, the key file 13a comprises a key for matching an element of the main XML set 10 designated by the path TVAMain / ProgramDescription / ProgramlnformationTable / Programlnformation with one or more elements of the secondary sets 11 designated by the ProgramReviewTable / review path. An element will enrich the main XML set 10 if the CRID attribute of a secondary set 11 is equal to the programld attribute of the main XML set 10 and if the "Givenname" sub-element of the Review / Reviewer / Person name is equal to Michel. Thus, the Review elements of the secondary XML 11 set whose CRID is known in the main XML 10 set and whose author is Michel are inserted into the enriched XML output set 15. The ProgramReview element does not exist not in the main assembly XML 10, this one and according to the invention is created. To this end, two actions are associated with the key in the key file. The first action has three attributes. The first attribute specifies the type of insertion to perform, in this case, a merge with possible creation of the ProgramReview element if it does not exist. The second attribute specifies the element to insert, in this case, the Program element corresponding to the value of the key. The third attribute specifies the element into which the merge is performed, in this case, the TV element AMain / ProgramDescription / ProgramReviewTable. The second action describes the copy of the Review element previously selected in the new element created ProgramReviewTable of the main XML 10 set. The key of the key file 13a is in this fourth example of the form:

<Key test = "(P: TVAMain / PiOgramDescription / ProgramInformationTable / Programinformation [@programld] == S: ProgramReviewTable / Review [@CRID]) AND (S: ProgramReviewTable / Review / Reviewer / PersonName / GivenName == 'Michel') "> <Action type- 'insert" element-' ProgramReviewTable / Program''primarySetNode = "TVAMain / ProgramDescription / ProgramReviewTable" /> <Action type- 'insert "element =" ProgramReviewTable / Review "primarySetNode =" TVAMain / ProgramDescription / ProgramReviewTable "/>

The enriched XML output set is then of the form:

<TVAMain> <ProgramDescription> <ProgramInformationTable>

</ProgramInformationTable> <ProgramLocationTable copyrightNotice = "France Télécom 2003">

</ProgramLocationTable><ProgramReviewTable><Program crid = crid: //www.francetelecom.com/FESTIVAL/Charlemagne /><Review><FreeTextReview> A very good film on a contemporary subject that is sure to interest all audiences </FreeTextReview><Reviewer><PersonName><mpeg7:GivenName> Michel </ mpeg7: GivenName></PersonName></Reviewer></Review> </ProgramReviewTable></ProgramDescription><TVAMain>

The file of keys 13a or 211 can be predefined or modified periodically as a function of the characteristics of the telecommunications network 217 or of the characteristics of the telecommunications terminals to which the output assemblies 15 or 215 are addressed. A file of keys 13a or 211 must nevertheless comply with an XML schema such as for example the following schema:

<? xml version- "1.0" encoding = "UTF-8"?><xs: schema xmlns: xs = http: // www. w3.org/2001/XMLSchema "elementFormDefault- 'qualified"><xs: element name = "Key"><xs:complexType><xs:sequence><xs: element ref-' Action "minOccurs- O" maxOccurs- ' unbounded "/></ xs: sequence><xs: attribute name =" test "type =" xs: string "/></ xs: complexType></ xs: element><xs: element name =" Keybag "><xs:complexType><xs:sequence><xs: element ref = "Key" maxOccurs— '"unbounded"/></ xs: sequence></ xs: complexType></ xs: element><xs: element name = "Action"><xs:complexType><xs: attribute name- 'type "type =" actionType "/><xs: attribute name =" element "type =" xs: string "/><xs: attribute name ~ "number" type = "numberType"/><xs: attribute name = "primarySetNode" type = "xs: string7> </ xs: complexType></ xs: element><xs: simpleType name = "numberType"><xs: restriction base = "xs: string"><xs: enumeration value = "1"/><xs: enumeration value = "all"/></ xs: restriction </ xs: simpleType><xs: simpleType name- 'actionType "><xs restriction base =" xs: string "><xs: enumeration value =" insert "/>< xs: enumeration value = "merge"/><xs: enumeration value = "replace"/></ xs: restriction></ xs: simpleType></ xs: schema>

In a fifth example according to FIG. 2, a main XML 201 metadata set includes information on two audiovisual programs called Merlin and Vivianne. The secondary assembly 205 includes, among other things, information on two audiovisual programs broadcast subsequently. These programs are called in our example Arthur and Lancelot. The enrichment filter 208 according to this fifth example inserts information on audiovisual programs absent from the main XML 201 set and enriches with elements of the secondary set the information on the audiovisual programs already present in the main XML 201 set The main XML 201 set is of the form:

<TVAMain>

<ProgramLocationTable><Schedule><Event><Program crid = "crid: //www.fit.com/Merlin"/><EventDescription> <PublishedTime> 2000-05-31T12: 10: 00 </PublishedTime></EventDescription></Event><Event><Program crid = "crid: //www.ft.com/Viviane"/><EventDescription><PublishedTime> 2000-05-31T14: 00: 00 </PublishedTime></EventDescription></Event></Schedule><ProgramLocationTable><ProgramInformationTable><ProgramInformation programld = "crid: // www. FT. Com / Merlin "><BasicDescription><Title> The Enchanter </ Title></BasicDescription></Programlnformation><ProgramInformation programld = crid: //www.ft.corn/Viviane"><BasicDescription><Title> The Fairy </ Title></BasicDescription></Programlnformation></ProgramInformationTable></TVAMain>

The secondary set XML 205 is of the form:

<TVAMain>

<ProgramLocationTable><Schedule><Event><Program crid = "crid: //www.ft.com/Merlin"/><EventDescription><PublishedTime> 2000-05-31 T12: 10: 00 </PublishedTime></EventDescription></Event><Event><Program crid = "crid: //www.ft.com Arthur"/> <EventDescription><PublishedTime> 2000-05-31T16: 10: 00 </PublishedTime></EventDescription></Event><Event><Program crid = "crid: //www.ft.com/Lancelot"/><EventDescription><PublishedTime> 2000-06-01 T17: 10: 00 </PublishedTime><EventDescription></Event></Schedule></ProgramLocationTable><ProgramInformationTable>

<ProgramInformationprogramld = "crid: // www. FT.com/Merlin"> <B asicDescription> <Title> The Enchanter </ Title> <Synopsis> Arthurian legend </Synopsis> <Keyword> of Troyes </Keyword> < Keyword> Camelot </Keyword> <Language> en </Language> </BasicDescription> </ Programlnformation> <ProgramInformation programld = "crid: //www.FT.com/Lancelot"> <BasicDescription> <Title> Le Chevalier < / Title> </BasicDescription> </ Programlnformation>

<ProgramInformation programld = "crid: //www.FT.com/Arthur"><BasicDescription><Title> The King </ Title></BasicDescription></Programlnformation></ProgramInformationTable></TVAMain> The key file 211 in this fifth example includes two keys. A first key makes it possible to enrich the table of program information “ProgramInformationTable” if the CRID of the main element 201 is equal to that of the secondary element XML 205. The elements inserted are inter alia the synopsis of one of the audiovisual programs, a next audiovisual program, its broadcasting times as well as its title. A second key is used to insert additional elements such as a next audiovisual program in the address table of the ProgramLocationTable audiovisual programs.

The key file 211 is thus of the form: <Keybag xsi: noNamespaceSchemaLocation = "clef.xsd"> <Key test- 'P: TVAMain / ProgramDescription / ProgramlnformationTable / Programlnformation [@programld] == S: ProgramInformation [@programld] "> <Action type =" merge "element" ProgramInformation "/ x / Key> <Key test =" P: TVAMain / ProgramDescription ProgramInformationTable / ProgramInformation @ programld] = S: ProgramLocationTable / Schedule / ScheduleEvent [@CRID] "> <Action type = "merge" element = "ProgramLocationTable / S chedule / ScheduleEvent" /> </Key> </Keybag>

The priority file 210 includes the priorities associated with the elements of the secondary set XML 205. It should also be noted that priorities can also be allocated to the elements of the main set 201. As a general rule, maximum priorities are allocated to the elements of the secondary XML set 205 representative of information associated with audiovisual programs broadcast in the near future. The elements of the secondary XML set 205 representative of information associated with audiovisual programs broadcast in the more distant future have less important priorities. These priorities are for example defined by the processor 300 of the enrichment device 30. The processor 300 periodically analyzes the elements describing the time and date of broadcasting of the audiovisual programs described in the secondary set XML 205 or the main set XML 201. By analyzing these elements, the processor 300 determines a priority for each of these elements which is a function of the date and time of broadcast and creates the priority file 210. The program for assigning priorities executed by the processor 300 is for example of the form:

setpriority [(date) Event / EventDescription / PublishedTime = 2000-05-31) && (time) Event / EventDescription / PubIishedTime> CurrentTime]: 1

ListTodayCrids = GetCrids (ProgramLocationTable / schedule, 1) // priority 10 for future events setpriority [(date) Event / EventDescription PubIishedTime> 2000-05-31)]: 10 ListFutureCrids =

GetCrids (ProgramLocationTable / schedule, 10)

ProgramInformation [/ @ programld () == one of the values of ListTodayCrids]: 1 ProgramInformation [/ @ programld () = one of the values of ListFutureCrids]: 10 Programlnformation / BasicDescription / Language: 10 Programlnformation / BasicDescription / Keywords: 3

In this fifth example, a threshold 212 allows the determination of the elements to be included in the output assembly 214 formed by the invention. All the elements and attributes corresponding to the actions associated with the keys contained in the key file 211 and whose priority is less than or equal to this threshold present in the secondary XML set are included in the enriched XML output set 214.

The enriched XML output set 214 is then of the form:

<TVAMain>

<ProgramLocationTable><Schedule><Event><Program crid = "crid: //www.ft.com/Merlin"/><EventDescription><PublishedTime> 2000-05-31 T12: 10: 00 /></PublishedTime> <PublishedDuration> P 1 YOMODTO 1 H35M00S <PublishedDuration></EventDescription></Event><Event><Program crid = "crid: //www.ft.com/Viviane"/><EventDescription><PublishedTime> 2000-05 -31T14: 00: 00 / x / PublishedTime></EventDescription></Event><Event><Program crid = "crid: //www.ft.com/ Arthur"/><EventDescription><PublishedTime> 2000-05 -31 Tl 6: 10: 00 </PublishedTime></EventDescription></Event></Schedule></ProgramLocationTable><ProgramInformationTable><ProgramInformation programld = "crid: //www.FT.com/Merlin"><BasicDescription><Title> The Enchanter </ Title><Synopsis> The Arthurian Legend </Synopsis><Keyword> of Troyes </Keyword><Keyword> Camelot </Keyword></BasicDescription></Programlnformation><ProgramInformation" programld = "crid: //www.FT.comViviane"><BasicDescription><Title> La fée </ Title></BasicDescription></Programlnformation><ProgramInformation> programld = "crid: //www.FT.com/ Arthur "><BasicDescription> <Title> Le Roi </ Title></BasicDescription></Programlnformation></PrograminformationTable></TVAMain> It should be noted that the enriched set of output previously described conforms to the metadata scheme of the TV specification Anytime. Of course, the present invention is not limited to the embodiments described here, but encompasses, quite the contrary, any variant within the reach of ordinary skill in the art.

Claims

1) Method for forming a set of output information (15, 214) from at least two sets of input information (10, l ia, 11b, 201, 205), the information being described in a markup language framing elements of the information sets, characterized in that the method comprises the steps of: - reading (E401, E419), in a set of keys (13a, 211), of at least one key comprising conditions for matching at least one element of an input set (10, 201) and / or information associated with an element of an input set with at least one element of the other input set (l ia, 11b, 205) and / or information associated with an element of the other input set, - verification (E407) if the matching conditions are met, - reading ( E408) in the set of keys of at least one processing to be carried out associated with the or each key read whose matching conditions e are fulfilled, - formation (E410) of a set of output information as a function of the or each processing associated with the or each key read whose matching conditions are fulfilled, - transfer (E420) of the set of output information.

2) Method according to claim 1, characterized in that all of the keys are described in a markup language, the or each key is included between tags and in that the or each processing to be performed associated with the or each key is included between the tags including the or each key.

3) Method according to claim 1 or 2, characterized in that the matching conditions are identity conditions of information values associated with an element of an input set to information values associated with one item from the other set of input information.

4) Method according to claim 1 or 2, characterized in that the matching conditions are conditions of identity of information values associated with a plurality of elements of an input set to values information associated with a plurality of elements of the other set of input information.

5) Method according to any one of claims 1 to 4, characterized in that a set of input information is main (10, 201) and the other sets of input information are secondary (lia, 11b , 205), and in that the output information set (15, 214) includes the elements of the main input information set and inserted elements, said inserted elements being elements of one of secondary input information sets.

6) Method according to claim 5, characterized in that the processing to be carried out is an insertion into an element of the set of output information of at least one element of a set of secondary input information.

7) Method according to claim 5, characterized in that the processing to be carried out is an erasure of an element of the set of output information and an insertion in place of the erased element of at least one part of a set of secondary input information.

8) Method according to claim 5, characterized in that the processing to be carried out is an insertion of information associated with an element of a set of secondary input information, said information associated with an element being inserted in the form of 'an item in the output information set.

9) Method according to claim 5, characterized in that the processing to be carried out is a creation of an element in the set of output information and an insertion of an element of a set of secondary input information in the output set item created.

10) Method according to any one of claims 1 to 9, characterized in that the method further comprises the step of: - determination of insertion criteria (E409, E411, E412) of at least one element of l input set of an output information set, and in that the output information set is formed in accordance with the determined criteria. 11) Method according to claim 10, characterized in that the insertion criteria are determined from a predefined structural diagram (14, 213) of the set of output information and / or priorities (13b, 210 ) allocated to the element or the information associated with the element of the secondary assembly to be inserted and / or of an enrichment threshold (13c, 212) of the set of output information.

12) Method according to claim 11, characterized in that an element and / or the information associated with an element are inserted into the set of output information in accordance with a predefined structural diagram (14, 213) of the set output information.

13) Method according to claim 12, characterized in that if the priority (210, 13b) allocated to the element or the information associated with an element of the secondary assembly inserted or to be inserted is greater than the enrichment threshold (13c , 212) of the output information set, the element or information associated with an element of the inserted secondary input information set is deleted (E414) from the output information set or the element or information associated with an element of the secondary input information set to be inserted is not inserted.

14) Method according to any one of claims 1 to 13, characterized in that the information of the set of output information (214) is information describing at least one audiovisual program.

15) Method according to claim 14, characterized in that the method further comprises a step of transcoding (202) of information describing at least one audiovisual program (203) in a predetermined format into a set of information described in a language markup.

16) Method according to claim 15, characterized in that the set of information transcoded and described in markup language form part of the set of output information, the other part being formed by elements and / or information associated with an item from other sets of input information. 17) Method according to any one of claims 14 to 16, characterized in that the predetermined format conforms to the DVB standard and in that the set of output information is described in markup language and is transmitted over an Internet-type network (217).

18) Device for forming a set of output information from at least two sets of input information, the information being described in a markup language framing elements of the information sets, characterized in that that the device comprises: - means for reading, in a set of keys, at least one key comprising conditions for matching at least one element of an input set and / or associated information an element of an input set with at least one element of the other input set and / or information associated with an element of the other input set, - means of verification if the conditions of matching are fulfilled, - means of reading in the set of keys at least one processing to be carried out associated with the or each key read_whose conditions for matching are fulfilled, - means of training the set of information output according to the processing associated with the or each key read whose matching conditions are met, - means for transferring the set of output information.

19) Computer program stored on an information medium, said program comprising instructions making it possible to implement the method according to any one of claims 1 to 17, when it is loaded and executed by a computer system.