FR2914524A1 - Heterogeneous telecommunication system for transactional application, has server supporting application component suitable to interact with component installed in table, where component is installed with user entity through terminal - Google Patents

Abstract

The system has a table (PA) and a communicating user entity i.e. user mobile terminal (TU) such as smart phone and personal digital assistant (PDA), installed with deployed application components (COAP1, CUAP1), respectively. A server (SP) controls a homogeneous electronic terminal (BO), such that the server is interconnected to the user entity. The server supporting an application component (C1AP1) is suitable to interact with the component (COAP1) installed in the table and interact with the component (CUAP1) installed with the user entity through the terminal. An independent claim is also included for a computer program comprising code instructions for controlling an electronic terminal, such that a server is interconnected to a communicating user entity.

Description

Telecommunication system for deployed applications

  The present invention relates to a heterogeneous telecommunication system in which applications are deployed. The telecommunication system can include heterogeneous hardware as diverse as application platforms, servers, terminals and smart cards, in which software components of an application are dispersed. Currently an application is often deployed in the following manner. The core component of the application is installed in a platform or dedicated server and software components of the application are dispersed for example in a specific terminal, called public reading terminal, accessible in a terminal and / or card to user chip. For example, a credit card management server is in communication with banking terminals dedicated to banking and receiving only credit cards. In another example, a loyalty card management server for purchases in a network of stores or shops is in communication with loyalty point discount terminals and only receiving loyalty cards. The previous dedicated applications have been deployed respectively for homogeneous specialized pool terminals most often single applications and through particular telecommunications system architectures without worrying about the portability of applications and the mobility of users. The software components of these applications installed in the terminals are not

  adapted to the graphical interface and more generally to the human-machine interface of the user terminal and to the connection of particular peripheral devices. These disadvantages hinder the mass installation of electronic terminals in a given territory. In addition, users are using more and more smart cards for various service applications. They must then keep these many smart cards and use different reading terminals corresponding respectively to different applications.

  To overcome the above disadvantages, a telecommunication system comprising a platform and a communicating user entity in each of which is installed at least one respective component of a deployed application, and at least one electronic terminal adapted to communicate with a user entity, is characterized in that it comprises a server that controls said at least one terminal so that it is able to interconnect the server to the user entity, said server supporting a component of the application capable of interacting with said at least one application component installed in the platform and interacting with said at least one application component installed in the user entity through a terminal. The telecommunication system of the invention presents an architect satisfying the deployment of numerous applications whose components can be loaded into the user entities. The applications are deployed in a pool of homogeneous electronic terminals and through a telecommunication system architecture promoting the

  portability of applications and user mobility. The terminals are trivialized and therefore transparent to the intelligence of the applications implemented in the server controlling the terminals, said pilot server. Whatever the components of the applications in a communicating user entity, such as a cellular network mobile terminal or a smart card, the user entity is adapted to communicate with all the platforms dedicated to the applications by virtue of the pilot server that adapts to the various applications that are likely to be solicited in the user entity, a terminal being used only to relay messages relating to the applications between the server and the user entity. Thanks to the trivialization of the terminals, the invention encourages each application to be used by an increasing number of user entities in accordance with the interest of the application providers and to disseminate the terminals throughout an area. The mobility of users is facilitated to access the various services offered by the applications throughout the territory. The invention is thus directed against the development of known specific reading terminals that support proprietary software components, conferring a universal character on the terminals. According to a particular embodiment of the invention, in order to allow the user of an entity to acquire rights on an application from anywhere before using the service provided by the application, the system comprises another server supporting said at least one component of the application able to interact with the component

  application in the platform and the application component in a user entity to acquire rights on the application. Said other server is for example connected via the Internet to the user entities without using the electronic terminals located in the places where application services can be used. Said other server and the server controlling the terminals can be connected so that said other server transmits rights on an application acquired by the user entity to the server controlling the terminals.

  The invention also relates to the server, said pilot server, in a telecommunications system comprising a platform and a communicating user entity in each of which is installed at least one respective component of a deployed application, and at least one an electronic terminal adapted to communicate with a user entity. The pilot server is characterized in that it comprises: a means for controlling said at least one terminal (BO) so that it is able to interconnect the server to the user entity, and a means of execution supporting at least one application component capable of interacting with said at least one application component installed on the platform and interacting with said at least one application component installed in the user entity through a terminal. In order for the user entity to access multiple applications deployed from any electronic terminal, the execution means can support several components of several

  applications each further deployed in at least one component supported by a platform and at least one component supported by the user entity. Components of two or more applications supported by the execution means may have in common at least one application subcomponent. The pilot server thus assembles software sub-components common to applications with at least one other software sub-component specific to an application into a component of the application. The pilot server centralizes all the application components to process the requests and responses exchanged between the platforms and the user entities. Software sub-components common to applications in the server promote the development and implementation of new applications and reduce the cost of building application components in the server. The common software components improve the adaptability of the applications to the various execution media in the user entities in particular as regards the graphical user interface.

  The invention also relates to an electronic terminal able to communicate with a communicating user entity in a telecommunications system comprising a platform, at least one component of a deployed application being able to be installed in the platform and at least one component of the deployed application being able to be installed in the user entity. The electronic terminal is characterized in that it comprises:

  means for controlling said at least one terminal so that it is able to interconnect the server with the user entity, and execution means supporting at least one component of the application able to interact with said user. least one application component installed on the platform and interacting with the at least one application component installed in the user entity through a terminal. No intervention is necessary on the ground where the terminals are located. The terminals according to the invention driven by the pilot server are identical or substantially as well in terms of hardware and software and reduced to a minimum, which leads to considerable savings both from the point of view of the manufacture and the operation and maintenance of the electronic terminals undergoing the manipulation of users.

  According to a particular embodiment of the electronic terminal, it comprises a contactless interface for coupling with the user entity. The contactless interface allows the use in the near field of a user entity of both the mobile terminal type and the smart card type.

  Finally, the invention relates to a computer program adapted to be implemented in the pilot server of the invention driving at least one electronic terminal, and to a computer program adapted to be implemented in a terminal electronic device according to the invention.

  Other features and advantages of the present invention will become more apparent to the

  reading of the following description of several embodiments of the invention given by way of non-limiting examples, with reference to the corresponding appended drawings in which: - Figure 1 is a schematic block diagram of a telecommunications system in which applications are deployed, according to a first embodiment of the invention; FIG. 2 is a schematic block diagram of a pilot server in the telecommunication system; FIG. 3 is a block diagram of an electronic reading terminal in the telecommunication system; FIG. 4 is a schematic block diagram of a telecommunication system in which applications are deployed, according to a second embodiment of the invention; FIG. 5 is a schematic block diagram of an application server in the telecommunication system of FIG. 4 or 6; and FIG. 6 is a schematic block diagram of a telecommunication system in which applications are deployed, according to a third embodiment of the invention.

  According to a first embodiment of the invention, a telecommunication system shown in FIG. 1 comprises at least one portable personal communicating user entity TU, a PTC download platform, at least one application platform PA, a pilot server of terminal SP and at least one electronic reading terminal BO. According to an example which will be referred to in the remainder of the description, a user entity

  communicant is a mobile terminal TU user served by a cellular access network for example GSM type ("Global System for Mobile Communications" in English) with a service GPRS ("General Packet Radio Service" in English), or UMTS type ("Universal Mobile Telecommunications System"). The mobile user terminal may be a PDA communicating personal digital assistant or a "smartphone". The communicating user entity may also be a universal integrated circuit (s) card (UICC) with or without contact in a mobile user terminal, such as a card with a SIM (Subscriber Identity) application. Module) when the terminal is a mobile of the GSM or GPRS type, or as a card with a Universal Subscriber Identity Module (USIM) application when the terminal is a mobile operating in CDMA (Code Division Multiple Access) ) for example of the type UMTS (Universal Mobile Telecommunications System). According to other variants, the communicating user entity is a smart card such as a payment card, an electronic purse card, a health card, an electronic passport, or any other microprocessor card that can communicate with the card. a fixed or mobile terminal. The communicating user entity may be any personal electronic device that can communicate with a server such as the pilot server. In a variant, the communicating user entity is the assembly consisting of a smart card, such as a UICC card or an additional card, and a cellular network mobile associated with the smart card and offering a human-machine interface.

  The Service Provider PTC Download Platform, also known as the Over The Air (OTA) Mobile Device Management Platform, manages the service application lifecycle and customization of applications in mobile devices user. The PTC platform is intended to exchange requests and responses with several of the mobile terminals through an RC communication network. For example, the network RC may include a short message service center ("Short Message Service Center") and the mobile access network of mobile terminals to exchange with it short messages, or the Internet and the cellular access network. The PTC download platform is intended to download CUAP1 client application components, such as applets, relating to API applications managed by service providers and installed in PA application platforms, under the control of a PO platform managed by the operator of the access network of mobile user terminals. An API application according to the invention is generally a transactional application and composed of application software components which are distributed on different sites. The application API deployed according to the invention comprises a component application COAP1 constituting the core of the application and supported by a PA application platform dedicated to at least the application, a component application C1AP1 supported by the central processing unit of the pilot server SP and possibly duplicated in several pilot servers if they exist, ensuring basic functions of the application, and a CUAP1 application component supported by each of

  mobile terminals associated with users authorized to use the application or having freely decided to use the application. The C1AP1 application component interacts with the COAP1 and CUAP1 components of the API application. An application component is a software processing unit encapsulating its own functionalities whatever the context and that can be installed separately. The component also has non-functional properties that represent system aspects related to the implementation of the component, such as transaction, security, persistence, fault tolerance, and which are variable depending on the context and the application. The separation between variable invariable and nonfunctional functional properties makes it possible to execute the component in different ways on execution media. The component also has a communication interface so that it can cooperate with other components internal or external to the component's execution support. In the variant according to which the communicating user entity is constituted by a smart card and a cellular network mobile associated with the UICC card or additional card type smart card, the mobile or the smart card only supports an application component CUAP1 of the application, or the application component CUAP1 is replaced by two application components supported by the mobile and the smart card, respectively.

  According to the first embodiment of the invention, the telecommunication system comprises platforms

  PA applications that host the COAP1 software components of the first API service applications that provide the specific application-specific functions. A PA application platform hosts one or more API service applications of a respective service provider.

  As shown in FIG. 2, the pilot server SP comprises communication interfaces ISP PA and ISP BO and a central processing unit UCSP serving as a support for executing a first application level of the deployed applications API in the form of the components. ClAP1 application software. The pilot server SP controls the BO terminals and acts as an application server with respect to the mobile terminals TU user and application client with respect to the AP platforms. In the pilot server SP shown in FIG. 2 and also in a read terminal BO shown in FIG. 3 and an application server SA shown in FIG. 5 and described below, only functional blocks are shown, most of which provide functions having a link with the invention and may correspond to software and / or hardware modules. The communication interface ISP BO is connected to the reading terminal BO and more generally to several reading terminals to control them and thus activate and deactivate them through a telecommunication network RT comprising for example the Internet and networks of networks. terminal access to the Internet, such as an Asymmetric Digital Subscriber Fine (ADSL) network and / or one or more weak link networks.

  range meeting the certification label WiFi ("Wireless Fidelity" in English). The ISP PA communication interface of the pilot server SP and the application platforms PA are for example linked by secure links over the Internet. The pilot server SP also includes a database BDSP and a routing unit URSP. The pilot server SP only establishes communications with mobile user terminals TU previously connected to electronic terminals BO which have transparently accepted a communication between a mobile user terminal and the pilot server.

  The database BDSP manages assemblies of subcomponents to form the application components ClAP1. The database BDSP controls in the URSP routing unit interconnections of the application components C1AP1 and selected application components CUAP1 in the user terminals through the ISP interface BO and the terminals BO and interconnections of the components C1AP1 and COAP1 components in PA platforms through the ISP PA interface. The BDSP database records in association the addresses of the activated terminals BO and the connected terminals TU and the selected API application identifiers in the terminals. For example, depending on the activated application component CUAP1 in a user terminal, the database BDSP can assemble application software sub-components into an assembled application component C1AP1 according to predetermined rules for composition and configuration of the application API corresponding to the CUAP1 component. A rule can depend

  possibly the user profile transmitted by the user terminal at the beginning of a connection with the pilot server and thus modifying certain parameters of the application. For a selected application in a user terminal, that is for the CUAP1 component corresponding to this selected application, the database BDSP assembles the functionalities of the application subcomponents into the component C1AP1 to be executed on the client. UCSP central unit, and controls in particular the descriptors of these subcomponents and the links between these subcomponents. The database BDSP controls the URSP routing unit via the communication interfaces of the application sub-components so that messages can be processed selectively by these application sub-components and routed to and from the electronic terminal in communication with the terminal. 'user. According to the invention, a component C1AP1 is not installed in particular terminals of various kinds, but is implemented and centralized in the USCP central processing unit of the pilot server SP which facilitates the development and implementation of new applications .

  In the pilot server SP are implemented one or more sub-components commonly used by the application components C1AP1 of at least two or more API applications. For example, a common application sub-component is intended to adapt the human-machine interfaces, also called user interfaces, in the user terminals a priori of different types, in particular for the presentation of pages, to the deployed applications API respectively selected by users. According to other examples, application sub-components

  common to C1AP1 application components include user identification, ticket management and transmission, secure signature and certificate payment, data signature verification, and a security procedure based on encryption and decryption algorithms. More generally, one or more common application components and at least one application component specific to a selected API application are assembled in the server SP to implement the selected application.

  An application component designates in the embodiments described hereinafter indifferently an application component a priori indissociable in a deployed application, or an assembly of application subcomponents, some of which may be common to several deployed applications and at least one other is specific to a specific application. application.

  As shown in FIG. 3, an electronic terminal BO comprises a contactless interface ISC, an IR network interface and a central processing unit UCBO equipped for example with a microprocessor and interconnected to the interfaces. The contactless interface ISC and a similar contactless interface included in a user terminal TU provide near field communications CCP when the terminal is placed a few centimeters from the terminal BO. The similar non-contact interfaces in the terminal BO and the terminal TU are coupled by radiofrequency of the order of ten megahertz for example according to the technology of markers NFC ("Near Field Communication" in

  English) or RFID ("Radio Frequency Identification"). The electronic terminal BO is "simple" in the sense that it comprises a minimum of hardware and software components for establishing and maintaining communication between a user terminal and the pilot server SP, and "universal" in the sense that it is not specific to a single application and is independent of any deployed application according to the invention. It is thus transparent to the application-specific content in messages exchanged between the pilot server and the user terminal and acts as a bridge between them.

  The electronic terminal BO is capable of communicating through logic outputs SL with peripheral devices D1, D2 and D3 specific to API, AP2 and AP3 applications, for example as electronic boxes and actuators for opening / closing control of parking barriers and / or access doors or automatic room access gates. Optionally the reading terminal BO comprises an HMI human-machine interface made available to a user whose portable personal communicating entity, such as a smart card, is not a terminal with a human-machine interface including including a keyboard and a screen.

  According to the first embodiment shown in FIG. 1, a deployed application API hosted mainly in a service provider application platform PA is relative for example to the loyalty of customer-users to a store network. In each store is installed at least

  an electronic terminal BO near one or more electronic boxes constituting peripheral devices D1 that can be connected to a logic output SL of the terminal BO. A user terminal TU has previously downloaded the application component (applet) CUAP1 from the loyalty application deployed API to the PIC platform. For counting loyalty points, the use of the API loyalty application deployed according to the invention comprises steps E10 to E16. In step E10, the client-user presents products to an electronic cash register D1 which adds the prices of the products in a total TT to pay.

  The ABO address of the terminal BO near the electronic cash register Dl, the identifier API IAP1 of the API fidelity application and the total TT are transmitted via the terminal BO to the pilot server SP which stores them.

  The database BDSP recognizes the identifier IAP1 and wakes up the application component C1AP1 of the loyalty application deployed API in the server SP. The server SP activates the terminal BO designated by the address ABO to be ready to communicate with a user terminal TU, in step E11. The user places the terminal TU near the activated terminal BO so that the terminal communicates with the contactless interface ISC to establish a connection in the near field between them, in step E12. The IR and ISC interfaces in the BO terminal are transparently related to the application dialog between the pilot server and the terminal during the following steps. The user selects the CUAP1 component of the API loyalty application in a menu

  of applications displayed on the terminal TU, or when the terminal TU is in particular a smart card, the loyalty application component CUAP1 is awakened by a request transmitted by the server SP and relayed by the activated terminal BO. The terminal TU transmits identification data IDU of the user to the server SP, in step E13. The database BDSP stores the IDU identification data by associating them with the ABO address of the BO terminal and the TT total previously stored. The server SP generates a message including the identification data IDU and the previously stored TT total and transfers them to the platform PA hosting the API fidelity application designated by the identifier IAP1, in step E14. A logical channel is thus open between the terminal TU and the platform PA. In step E15, the API fidelity application identified in the platform PA verifies that the IDU identification data correspond to a client-user who has subscribed a loyalty contract and determines a number of NPF loyalty points according to the total TT. A cumulative total TPF credential score associated with the IDU identification data is increased by the MFN number. The number of MFN loyalty points and the cumulative updated total TPF associated with the identification data IDU are transmitted in a response message to the pilot server in the other direction of the logical channel. Based on the ABO address associated with the IDU identification data, the pilot server database BDSP directs the number of NPF loyalty points and the accumulated total TPF to the BO terminal which transmits them to the terminal TU in which the component CUAP1 recognizes

  the application identifier IAP1 and displays them in step E16.

  According to a second embodiment of the invention illustrated in FIG. 4, the telecommunication system comprises PA application platforms that host application components COAP2 of second applications of the service AP2 and furthermore an application server SA. A second application AP2 also comprises a component application C1AP2 in the pilot server, a component application CUAP2 in the user terminals TU and a component application C2AP2 in the application server SA.

  The application server SA manages the interaction between the application components CUAP2 and C2AP2 and the interaction between the application components C2AP2 and COAP2 to acquire rights on services corresponding to the AP2 applications requested by the users prior to their use. The server SA acts as an application server with respect to the mobile terminals TU user and application client with respect to the AP platforms. As shown in FIG. 5, the application server SA may have an architecture similar to that of the pilot server SP and comprises a central processing unit UCSA serving as a support for executing a first application level of the deployed applications AP2 in the form C2AP2 application software components. The SA server also includes ISA PA and ISA TU communication interfaces, a BDSA database and a URSA routing unit.

  The ISA PA communication interface is connected to PA application platforms for example by secure links over the Internet. Like the PIC download platform, the ISA TU communication interface of the application server SA can communicate with the user terminals for example via the communication network RC, such as the Internet and the cellular access network of the mobile terminals. 'user.

  The AP2 applications are further deployed primarily in the form of C2AP2 application components installed in the SA server so that the user terminals acquire at least rights over services provided by selected applications, and secondly as C1AP2 application components. installed in the pilot server SP for the acquired rights to allow access to the selected services via the user terminals.

  For some applications, several application sub-components are assembled into a C2AP2 application component by means of the BDSA database in the SA server. The URSA routing unit provides, under the control of the BDSP database, interconnections of the selected C2AP2 application components and CUAP2 application components in the user terminals through the ISA TU interface and the interconnections of the C2AP2 components and components. COAP2 in PA platforms through the ISA PA interface. For example, in the server SA, a component C2AP2 application results from the assembly including a ticket issuing subcomponent, a human-machine interface adaptation subcomponent and a subcomponent electronic signature verification. The assemblies of the sub-

  components are managed by the BDSA database according to predetermined rules of composition and configuration of the AP2 application. Similarly to the SP server, one or more application sub-components can be used in common by C2AP2 components of applications selected by a user. For example, each time a user terminal requests an application AP2, an application sub-component relating to the presentation of pages adapted to the user terminal and more generally to the human-machine interface in the user terminal is assembled with other application sub-components related to the requested application.

  For the second embodiment, a predetermined application AP2 deployed according to the invention is for example relative to the parking of a vehicle driven by the user of the mobile terminal TU in a parking lot by acquisition of information, such as for example a parking ticket . The AP2 application is deployed in the form of application components C1AP2 and C2AP2 in the servers SP and SA and a component application CUAP2 in the user terminals.

  The use of the deployed application AP2 comprises steps E20 to E25. In step E20, the user connects the terminal TU to the application server SA through the network RC as a function of the address entered or prestored by the server SA and selects the parking ticket application AP2 in an application menu. which activates the application component CUAP2 which requires a communication with the component C2AP2 in the application server SA by transmitting the identifier IAP2 of the parking ticket application AP2.

  The mainly graphical human-machine interface in the terminal TU is adapted to the selected application AP2 by the common application sub-component for presentation of pages in the server SA.

  Then, in step E21, the user of the terminal TU communicates via the component CUAP2 with the application component C2AP2 of the parking ticket application selected to indicate in particular data of the user and / or of his vehicle and of IDP identification of the car park and possibly the expected day and duration of parking. If the car park is that of a company, the application server SA may require a personal or collective access code to the company that the user must enter on the terminal TU or extract from the memory of the terminal TU to transmit it to the SA server. The component C2AP2 in the application server SA establishes a logical channel between the terminal TU and the platform concerned PA so that the component COAP2 of the application platform concerned PA establishes an electronic parking ticket TP and transmits it to the terminal TU which the displays in step E22 via the SA server. The terminal TU and the platform concerned PA store the ticket TP.

  The application server SA having no secrets is not able to continue the transaction between the terminal TU and the server concerned PA to allow entry into the parking. In the subsequent step E23, when presenting itself in the vehicle in front of an entrance barrier D2 of the car park, the user positions the terminal TU in front of a terminal BO which is located near the barrier. The terminal TU communicates with the contactless ISC interface of the terminal to establish a near-field connection and the terminal goes from a standby state

  an activated state after signaling the presence of the terminal to the pilot server SP. The user selects in the terminal the parking ticket application and therefore the IAP2 identifier. The component CUAP2 communicates through the contactless near-field ISC interface of the terminal with the component C1AP2 in the pilot server SP, as in steps E12 and E13. In step E24, the application component C1AP2 in the pilot server SP controls the reading of the parking ticket TP stored in the terminal TU and establishes a logical channel between the parking ticket application component COAP2 in the platform AP2 and the component parking ticket application CUAP2 in the terminal. Upon receipt of the parking ticket TP in step E25, the component COAP2 compares the ticket received and the ticket that has been stored in step E22. If the compared tickets are identical, the COAP2 component of the platform transmits an entry barrier clearance authorization through the established logical channel so that the SL server commands a logic output SL of the BO terminal the barrier actuator. D2 entry and the vehicle of the user enters the parking lot, in step E26. As a variant, the transmission of the ticket at step E24 may be embellished with an electronic signature of the ticket resulting from the execution of a cryptographic algorithm by the component CUAP2 in the terminal and a verification of this signature by the component COAP2 in the platform. Subsequent to the exit of the vehicle from the car park, steps similar to the previous ones are performed to raise an exit barrier of the car park. The lifting of the barrier is not allowed

  only after the parking payment or subscription code validation steps by using the terminal TU and communicating it with the components C1AP2 and COAP2 via contactless coupling with a terminal BO in the vicinity of the exit barrier.

  According to a third embodiment of the invention shown in FIG. 6, to implement the service deployment method, the telecommunications system comprises the servers and platforms according to the second embodiment and the ISP SA and ISA SP communication interfaces shown in FIGS. Figures 2 and 5 in the servers SP and SA so as to connect them together through the Internet for example. For the third embodiment, a predetermined application AP3 deployed according to the invention is for example relating to the reservation of show room. The AP3 application is deployed in the form of application components COAP3, C1AP3, C2AP3 and CUAP3 respectively in a PA platform, the SP and SA servers and the user terminals TU. The use of the deployed application AP3 comprises steps E30 to E35. In step E30, the user connects the terminal TU to the application server SA through the network RC as a function of the address entered or prestored by the server SA and selects the identifier IAP3 of the show room reservation application. AP3 in an application menu and thus activates the CUAP3 application component. The application component CUAP3 requires a communication with the component C2AP3 in the application server SA and transmits the identifier IAP2 of the application ticket of

  parking AP2. The mainly graphic human-machine interface in the terminal TU is adapted to the selected application AP3 by the common application sub-component for presentation of pages in the server SA. Then, in step E31, the user of the terminal TU communicates via the component CUAP3 with the application component C2AP3 of the show room booking application selected so that the user chooses a given show and retains seats for that show. by entering PR reservation parameters such as a date and time, a number of places and possibly identifiers of available places. The application server SA requires, through the terminal TU, also PU parameters of the user such as name, surname and credit card number entered on the terminal. The component C2AP3 in the application server SA establishes a logical channel between the terminal TU and the platform concerned PA. The reservation parameters PR constituting rights acquired on the service constituted by the show and the user parameters PU are transmitted by the application server SA to the application platform for the booking of the show concerned PA. The component COAP3 in this platform develops an electronic show reservation ticket TR according to the transmitted parameters and transmits it via the application server SA to the pilot server SP and the terminal TU which memorize the show ticket, in the step E32. Then subsequently, in a step E33, the user presents the terminal TU in front of a terminal BO which is for example located in front of the entrance to the theater. The terminal TU communicates with the contactless ISC interface of the terminal to establish a connection

  in the near field and the terminal goes from a standby state to an activated state after signaling the presence of the terminal to the pilot server SP. The user selects in the terminal the venue reservation service and thus the IAP3 identifier and the application component CUAP3. The component CUAP2 requires a connection with the component C1AP3 of the AP3 electronic show reservation application installed in the pilot server SP through the activated terminal BO. In step E34, the application component C1AP3 controls the reading of the reservation ticket TR stored in the terminal TU. The application component C1AP3 compares the reservation ticket read in the terminal TU and the reservation ticket communicated by the server SA and stored in the pilot server SP in the previous step E32. If the reservation tickets compared to TR are identical, the application component P3AP3 remote control by a logic output SL of the server SP for example an opening-closing actuator D3 of an automatic gate to access the theater. At the same time, the pilot server SP transmits the reservation ticket TR thus validated and consumed to the component COAP3 of the platform concerned PA to debit the user's bank account, in step E35. As a variant, the end of step E35 is suppressed and consequently the pilot server SP is not put in communication with application platforms PA. The payment transaction is stored in the server SP and transmitted in a deferred manner to a banking server.

  As a variant of the second and third embodiments, the servers SP and SA are combined into a single server so as to reduce the cost of the telecommunications system according to the invention.

  The invention described here relates to a telecommunication system, a server driving electronic terminals and an electronic terminal. It also relates to a computer program implemented in the server of the invention controlling at least one electronic terminal, and composed of instructions which, when said program is executed in a server processor whose operation is then controlled by the execution. of the program, perform a step of controlling said at least one terminal to be able to interconnect the server to the user entity, and an interaction step during which at least one component of the application installed in the the server interacts with both of the at least one application component installed in the platform and with the at least one application component installed in the user entity through a terminal. The invention also relates to a computer program implemented in an electronic terminal of the invention able to communicate with a communicating user entity and composed of instructions which, when said program is executed in a processor of the electronic terminal whose operation is then controlled by the execution of the program, perform an interconnection step interconnect step capable of interconnecting a server capable of controlling at least said terminal to the user entity, this interconnection allowing interactions between at least a component of the application installed in the

  server and said at least one application component installed in the user entity, said at least one component of the application installed in the server being able to interact with said at least one application component installed in the platform. Accordingly, the invention also applies to a computer program, in particular a computer program recorded on or in a computer readable recording medium and any data processing device, adapted to implement the computer program. 'invention. This program can use any programming language, and be in the form of source code, object code, or intermediate code between source code and object code such as in a partially compiled form, or in any other form desirable to implement the method according to the invention. The recording medium may be any entity or device capable of storing the program. For example, the medium may comprise storage means on which the computer program according to the invention is recorded, such as a ROM, for example a CD ROM or a microelectronic circuit ROM, or a USB key, or magnetic recording means, for example a diskette (floppy disc) or a hard disk. On the other hand, the recording medium may be a transmissible medium such as an electrical or optical signal, which may be conveyed via an electrical or optical cable, by radio or by other means. The program according to the invention can in particular be downloaded to an Internet type network. Alternatively, the recording medium may be an integrated circuit in which the program is incorporated, the circuit being adapted to execute or to be used in the execution of the method according to the invention.

Claims (9)

  1 - Telecommunication system comprising a platform (PA) and a communicating user entity (TU) in each of which at least one respective component (COAP1, CUAP1) of a deployed application is installed, as well as at least one electronic terminal (BO) adapted to communicate with a user entity (TU), characterized in that it comprises a server (SP) which controls said at least one terminal (BO) so that it is able to interconnect the server (SP) ) to the user entity (TU), said server supporting a component (ClAP1) of the application able to interact with said at least one application component (COAP1) installed in the platform (AP) and to interact with said at least one application component (CUAP1) installed in the user entity (TU) through a terminal.   2 - System according to claim 1, comprising another server (SA) supporting at least one component (C2AP2) of the application capable of interacting with said at least one application component (COAP2) in the platform (AP) and the application component (CUAP1) in the user entity (TU) for acquiring rights to the application.   3 - System according to claim 2, wherein said other server (SA) and the server (SP) controlling the terminals (BO) are connected so that said other server transmits rights to the application acquired by the entity of user (TU) to the server controlling the terminals.   4 - Server (SP) adapted to be implemented in a telecommunications system comprising a platform (PA) and a communicating user entity (TU) in each of which at least one respective component (COAP1, CUAP1) is installed. an deployed application, as well as at least one electronic terminal (BO) able to communicate with a user entity (TU), characterized in that it comprises: - means (ISP BO) for controlling said at least one terminal (BO) so that it is able to interconnect the server to the user entity (TU), and - a means of execution (UCSP) supporting at least one component (ClAP1) of the application able to interact with said at least one application component (COAP1) installed on the platform and interacting with said at least one application component (CUAP1) installed in the user entity through a terminal.   5 - Server according to claim 4, wherein the execution means (UCSP) supports several components (ClAP1) of several applications each further deployed in at least one component (COAP1) supported by a platform (AP) and at least a component (CUAP1) supported by the user entity (TU).   6 - Server according to claim 5, wherein the components (ClAP1) of two applications (API) supported by the execution means (UCSP) have in common at least one application subcomponent.   7 - Electronic terminal (BO) adapted to communicate with a communicating user unit (TU) in a telecommunication system comprising a platform (PA), at least one component (COAP1) of a deployed application being able to be installed in the platform and at least one component (CUAP1) of the deployed application being able to be installed in the user entity, characterized in that it comprises means capable of interconnecting a server (SP) able to control the least said user entity (TU) terminal (BO), this interconnection allowing interactions between at least one component (ClAP1) of the application installed in the server (SP) and said at least one application component (CUAP1) installed in the user entity (TU), said at least one component (ClAP1) of the application installed in the server (SP) being able to interact with said at least one application component (COAP1) installed in the platform (AP).   8 - Computer program adapted to be implemented in a server (SP) adapted to be implemented in a telecommunications system comprising a platform (PA) and a communicating user entity (TU) in each of which is installed at least one respective component (COAP1, CUAP1) of a deployed application, as well as at least one electronic terminal (BO) adapted to communicate with a user entity (TU), said program comprising code instructions which when the program is executed, perform: a step of controlling said at least one terminal (BO) to be able to interconnect the server (SP) to the user entity (TU), and - an interaction step during which at least one component (ClAP1) of the application installed in the server interacts with both of said at least one application component (COAP1) installed in the platform (AP) and with said at least one application component (CUAP1) installed in the user entity through a terminal.   9 - Program adapted to be implemented in an electronic terminal (BO) able to communicate with a communicating user entity (TU) in a telecommunication system comprising a platform (PA), at least one component (COAP1) of a deployed application being able to be installed in the platform and at least one component (CUAP1) of the deployed application being adapted to be installed in the user entity, said program comprising code instructions which, when the program is executed, perform an interconnect step capable of interconnecting a server (SP) able to drive at least said terminal (BO) to the user entity (TU), this interconnection allowing interactions between at least one component (ClAP1) of the application installed in the server (SP) and said at least one application component (CUAP1) installed in the user entity (TU), said at least one component (ClAP1) of the application installed in the server (SP) being apt e to interact with said at least one application component (COAP1) installed in the platform (AP).