CH705964A1 - System for implementing various applications for smart card, has programming device that checks application definitions and provides active entities, passive entities or mixed active and passive entities - Google Patents

Abstract

The system (1) has a creation unit (2) that creates different forms of application definitions (3) and transfers over a distribution channel (4) to a programming devices (5). The programming device checks application definitions and provides active entities (6), passive entities (7) or mixed active and passive entities (8) in application definitions. The programming device is connected with a distribution server (9) using internet.

Description

Subject and / or technical field

The invention relates to a system for integration into electronic devices for creating various applications using RFID, smart card or related technologies.

To «state of the art»

At present, a variety of RFID and smart card based systems are in commercial use. The main feature of these systems is that they consist of an active device (read / write unit) and a passive device (card). Upon contact (either directly galvanically or by radio), the active device supplies the passive device with electrical energy, as a result of which digital information is exchanged between the two devices, which trigger an event in the active device.

However, the systems mentioned do not exist alone, but always serve a specific "purpose", an application. Therefore, another feature of these systems is that to create an application, the choice of components used is directly dependent on the requirements of the application - for example, in an electronic device.

Examples of applications include the use of cards for cashless payment, for the use of equipment or physical access control to rooms and buildings.

Thus, to realize such an application, it is necessary to integrate the available components into the active device of the application, as well as to select and prepare the passive devices used in the application for the application. The active devices are programmed according to the prior art directly according to the requirements of the application in software, while the passive devices are programmed with management and configuration software.

In the active device to the prior art additional electronic components such as CPUs (central processing units) are required to run this application software, while for the passive devices third-party software or specially programmed software is needed.

As a "universal", not bound to a particular application RFID / smart card read / write units are so-called. PC / SC compatible devices, or other devices connected to personal computers available.

Furthermore, the following patents describe limitations to the invention:

US patents: US 7,429,926; Radio frequency identification (RFID) and programmable logic device (PLD) integration and applications - US 2005 231 331; RFID system including a programmabie RF tag

Korean patent: - KR 2008 0 088 340; SYSTEM AND METHOD FOR RFID MIDDLEWARE BASED ON ALE STANDARD SPECIFICATION

Japanese patent: - JP 2008 077 407; READER / WRITER DEVICE, AND METHOD AND PROGRAM FOR CONTROLLING READER / WRITER

European patent: - EP1 638 045; Architecture, programming model and APIs for RFID

Disadvantages of the prior art

According to the state of the art, an integrated circuit for activating RFID / smart card read / write components must always be implemented and programmed with application logic to create an application with RFID / smart cards. Ready-programmed modules only fulfill the tasks of a specific application, so that specific software must always be developed for the integration of RFID / Smart Cards into devices. This is also the case with PC / SC compatible devices (here is the software on the PC).

Is an RFID / smart card application created in accordance with the prior art, their properties can be solved only by reprogramming, if not provided in the application itself (eg change the control of inputs / outputs of the RFID / smart card unit) ,

A manufacturer of devices must create new software per application, and thereby usually acquire RFID / smart card knowledge.

Delimitation of the patents given under "state of the art":

US 7 429 926 describes the extension of a programmable logic device (PLD) by means of an RFID interface, via which this device can be programmed, but not a programmable device that integrates and executes RFID.

US 2005 231 331 describes the use of an FPGA (field programmable gate array) within an RFID transponder (not reader)

KR 2008 0 088 340 describes the use of standardized RFID descriptions for transponder management, but not the overarching application.

JP 2008 077 407 describes the configuration of various modulations of an RFID reader, but not the configuration of various applications.

EP 1 638 045 depicts a programming interface that communicates with RFID applications, but not a programming interface for the overall realization of the RFID application.

task

The invention is intended to facilitate the integration of RFID / smart card technology by manufacturers of devices and applications by RFID / smart card technology neither has to be understood nor programmed. This should not just apply to a specific application, but to a wide variety of applications.

solution

The object is solved by the features of patent claim 1.

advantages

Advantageous developments emerge from the dependent claims. The advantages of the invention are An application with RFID / Smart Card technology can be created without programming by configuration alone The RFID / Smart Card technology is completely abstracted for the integrator and does not have to be learned and understood No need to re-program or reselect components as your application requirements change No knowledge about the RFID / Smart Card technology for the application developers The invention can be reused for more than 1 application without having to program new application software

Aufzählung of the figures

[0025] <tb> - Fig. 1 <sep> shows the system for implementing various applications by configuration (1) <tb> - Fig. 2 <sep> shows the structure of the active entity (6) (built-in electronic device) <tb> - Fig. 3 <sep> shows the sequence of programming and configuration of the active entity (6) by means of programming unit (5) <tb> - Fig. 4 <sep> shows the structure of the passive entity (7) (e.g., RFID / smart card) <tb> - Fig. 5 <sep> shows the procedure of the identification application <tb> - Fig. 6 <sep> shows the process of the value application <tb> - Fig. 7 <sep> shows the procedure of the card application <tb> - Fig. 8 <sep> shows the flow of the data application <tb> - Fig. 9 <sep> shows the structure of the programming unit (5) <tb> - Fig. 10 <sep> shows the structure of an application definition (3) <tb> - Fig. 11 <sep> shows the procedure of programming and configuring the passive entity (7) (RFID / Smart Card).

Embodiment of the invention

Fig. 1 shows the components of the invention (1). By means of a creation unit (2) different application definitions can be generated (3, or different forms 3, 3, 3). The application definitions (3) contain semantic definitions of the entities (6, 7, 8) contained in the application, which define the configurations of the entities, data fields, cryptographic key material, and trigger events and their responses in entities (6, 7, 8). By means of a distribution channel (4) these application definitions are transmitted to a programming unit (5). The programming unit includes corresponding logic (embodiment Fig. 3) to interpret the application definitions (3), possibly load additional necessary information, configurations or binaries from a distribution server (9) and to program and configure the entities.

The preparation unit (2) according to the invention may be a personal computer (PC) with software. This software contains the necessary elements that are stored in an application definition (3).

An entity (6, 7, 8) in the system of the invention may be an active entity (6), a passive entity (7) or optionally a combined entity (active and passive) (8).

Fig. 2 shows the structure of the active entity (6). The active entity consists of programmable chip hardware (101) with analog components. According to the invention, this may be a FPGA (Field Programmable Gate Array), SoC (System on Chip) or PLD (Programmable Logic Device) alone, or in combination with a CPU (Central Processing Unit). The chip hardware (101) contains an operating system (102) which can be programmed and configured by means of the application definitions (FIG. 1, (3)) by the programming unit (5) by means of a programming interface (110). The chip hardware (101) has various input interfaces (103, 104, 105, 112) and various output interfaces (106, 107, 108, 109), as well as a circuit for an RFID / smart card interface (111).

The input interfaces of the chip hardware (101) can be according to the invention: Interface for connecting a PC or another CPU for exchanging control commands (103) Interface for connecting pushbuttons and switches (104) Interface for connecting bus systems (for example CAN bus) (105) Interface for connecting sensors (eg temperature sensor, current / voltage measurement, humidity sensor, etc.) (112)

The output interfaces of the chip hardware (101) are defined as follows: Interface for connecting actuators (e.g. motor, relays) (106) Interface for connecting a display (e.g., LCD) (107) Interface for connecting a network (e.g. Ethernet LAN, WLAN module) (108) Digital-to-analog converter (109)

The RFID / smart card interface (111) can bidirectionally exchange data with passive entities (7) via contact (e.g., IS07816 standard) or contactless (e.g., to IS014443, ISO 15693, ISO 18092, ISO 18000 standards) communication protocols.

Through the application definition (3) of Fig. 1, an application type is selected for execution in the operating system (102) of the active entity (6) from the following basic application types Identification application (Fig. 5) Value application (FIG. 6) Card Application (Fig. 7) Data Application (FIG. 8)

The application definition (3) set forth in FIG. 10 contains not only the definition of the existing entities in the system (404), but also parameters (402) which include the activation / deactivation and configuration of the interfaces (103, 104, 105, 106, 107 , 108, 109, 112) of the active entity (6). An application definition (3) is based on a given formatting structure (e.g., XML or TLV encoded) and may be stored in a file (401) on a medium, for example. In the application definition, it is additionally defined which events (403) are to be triggered at which interfaces (103, 104, 105, 106, 107, 108, 109, 112), in the event that a sequence of FIGS. 5, 6, 7 and 8 was successfully or unsuccessfully completed.

As a distribution channel (4) of the application definition (3) to the programming unit (5) is either a disk (eg, hard disk, flash memory stick ("Thumbdrive") or similar) or a network transmission medium such as Internet, e-mail, etc. According to the invention The distribution server (9) can also be used to transfer application definitions.

The programming and configuration process of the active entity (6) is described in Fig. 3. The programming unit (5) reads and checks the application definition (3) for correctness, and aborts the process in case of incorrectness. If correct, the programming unit (5) connects to the active entity (6) via the programming interface (110) and checks whether the active entity (6) is already programmed with the operating system (102). If it is not, the programming unit (5) loads the operating system software (102) from the distribution server (9) and programs the active entity (6) via the programming interface (110). Subsequently, the programming unit (5) makes the configuration of the interfaces (103, 104, 105, 106, 107, 108, 109, 112), as well as setting the application parameters (402, 403) from the application definition (3). This includes setting the application type. Once configured, the programming unit can optionally start the application logic in the active entity (6) and then terminate the connection.

Due to the selected application type, the operating system (102) knows which application process (Fig. 5, 6, 7 or 8) is to be executed.

The "identification application" (Figure 5) uses a specific data field (202) stored on the passive entity (7) to trigger processes in the active entity. For example, this application can be used to uniquely identify a person by using a personnel number.

The value application (Figure 6) stores an amount of value in a data field (202) on the passive entity (7) which can be incremented, decremented and set by the active entity (6). This application can be used, for example, to facilitate cashless payment with non-personal funds.

The mapping application (Figure 7) behaves similarly to the identification application, but does not use an arbitrary field on the passive entity (7), but an unchangeable, unique feature set by the passive entity (7) manufacturer. For transponders according to the standard ISO 14443 this is e.g. the «UID».

In the data application (FIG. 8), the active entity (6) transmits a freely selectable value (eg measured value of a sensor interface (112) or a value which can be changed via interface (103) in the operating system (102) of the active entity (6). ) in a dedicated data field (202) on the passive entity (7), and / or transmits an arbitrary value stored in the passive entity (7) in a data field (202) to a location in the operating system (102) of the active one Entity (6).

Fig. 4 shows the construction of the passive entity (7). A passive entity (7) consists of a semiconductor chip (201) containing a non-volatile data field (202) which can be read and written to via the command access unit (203), either via a contacted interface (210), e.g. according to ISO 7816, or via a radio interface (211), e.g. according to ISO 14443 or ISO 15693. These passive entities (7) are state of the art and not the subject of the invention. The process for programming and configuring the passive entity (7), however, is part of the invention and described in FIG. 11.

In Fig. 9, the structure of a programming unit (5) is set forth. The programming unit (5) consists of programming hardware (301, e.g., personal computer) and programming software (302) executed thereon. The programming software (302) has the option of obtaining operating system software (102) from the distribution server (9) and application definitions (3) via the distribution channel (4) via a data input / output interface (303). Through a programming interface (304, such as JTAG and / or USB) connected to the programming hardware, the programming unit can program active entities (6) with the operating system (102) and configure them based on the application definition (3). Furthermore, read / write devices (305, eg PC / SC compatible devices, ISO 14443 or ISO 7816 compliant devices) connected to the programming hardware (301) may program passive entities (7) according to the definition in the application definitions (3) be configured.

The distribution server (9) stores the operating system software (102) - optionally according to the invention also the programming software (302), which are required for programming the active (6) and passive entities (7). Optionally, according to the invention, it can also be used to provide application definitions (3). The distribution server (9) is connected to the programming unit (5) by means of an Internet or network connection. Optionally, according to the invention, the software files or the distribution server (9) can be integrated directly into the programming unit (5) so that no internet or network connection is necessary.

Claims (24)

1. A system for implementing various applications by configuration (1), in which by a creation unit (2) different forms of application definitions (3) are created, which are transmitted via a distribution channel (4) on programming devices (5) and after checking for active entities (6), passive entities (7) or mixed active and passive entities (8) are configured to have active entities (6), passive entities (7) and mixed active and passive entities (8) together in an application as defined in the US patent application Ser Application Definition (3) to interact with a connected device in the sense of application in a device. 2. A system of claim 1, wherein the creation unit (2) consists of a system of PC and software in which the software contains the coding specification for application definitions (3). 3. A system as claimed in claim 1, wherein the application definition (3) consists of an XML and / or TLV (Tag Length Value) coded file, and XML tag and / or TLV definitions for: a. Active, passive and mixed active / passive entities (6, 7, 8) b. Input and output interfaces (103, 104, 105, 106, 107, 108, 109, 110,) of the active entity (6) c. Data fields of the active entity (6) d. Data fields of the passive entity (7) A system of claim 1, wherein the distribution channel (4) consists of a volume of the following options: a. Hard disk b. Memory Stick, flash memory ("Thumb Drive") c. Optical data carrier (DVD, CD) A system of claim 1, wherein the distribution channel (4) consists of a network connection of the following options: a. Internet connection b. Mobile radio connection (GPRS, UMTS, LTE) c. Point-to-point radio connection (Bluetooth, WLAN, Zigbee) A system of claim 1, wherein the programming unit (5) consists of hardware of the following options: a. Personal computer b. Handheld or tablet computer c. mobile phone d. Embedded computer A programming unit (5) of claim 6 in the system of claim 1, including or having at least one RFID / smart card read / write unit for programming and configuring passive entities (7). A programming unit (5) of claim 6 in the system of claim 1, comprising at least one programming interface (304), or a combination of a plurality of programming interfaces (304) of subsequent possible interfaces for programming and / or operating active entities (6) to configure: a. USB interface b. JTAG interface c. SPI interface A programming unit (5) of claim 6 in the system of claim 1 including software (302) containing the application definition coding rule (3), testing application definitions, and active (6) passive (7) and combining active and can program and / or configure passive entities (8). A programming unit (5) of claim 6 in the system of claim 1 having an interface (303) for loading operating system files (102) and application definitions (3) from a distribution server (9) or the distribution channel (4). A system of claim 1, including an active entity (6) containing at least one RFID / smart card interface (111), or any combination of the following options: a. RFID interface according to ISO 14443 b. RFID interface according to ISO 15693 c. RFID interface according to ISO 18000 d. RFID interface according to ISO 18092 e. Smart card interface according to ISO 7816 A system of claim 1, including an active entity (6) containing at least one interface, or any combination of the following options: a. Interface for connecting a personal computer (PC) or a CPU for sending commands to the active entity (6) (103) b. Interface for connecting pushbuttons and switches (104) c. Interface for communicating via a bus interface (105) d. Interface for connecting actuators (106) e. Interface for connecting a display / screen (107) f. Interface for connecting an Ethernet or wireless LAN network (108) G. Digital / analog converter (109) H. Programming interface (110) according to the types of claim 8 i. Interface for connecting e.g. Temperature, pressure, current, voltage, power, humidity, or other analog signals (112) A system of claim 1, including an active entity (6) capable of executing an operating system (102) and comprising at least one or any combination of the following semiconductor devices: a. CPU (central processing unit) b. FPGA (field programmable gate array) c. PLD (programmable logic device) d. SoC (system on chip, consisting of analog components and CPU) e. RFID transceiver A system of claim 1, including an active entity (6) whose operating system (102) can be loaded and overwritten onto the chip hardware (101). A system of claim 1 including an active entity (6) whose operating system (102) is capable of performing at least one or any combination of the application logic of the following types: a. Identification application (Fig. 5) b. Card Identification Application (Figure 6) c. Value application (FIG. 7) d. Data Application (FIG. 8) The method for an identification application of claim 15 in the system of claim 1, comprising the steps of: a. Start the application b. Searching for a Valid Passive Entity (7) via the Interface of Claim 11 (111) c. If no valid passive entity (7) found, go back to step b if valid passive entity (7) with application type «identification application» found next with step d d. Active entity (6) reads identity number from data field (203) of the passive entity (7) e. If identity number is recognized as valid by the active entity (6), triggering a positive event defined in the application definition (3) via interfaces of claim 12 (106, 107, 108, 109) f. If identity number is recognized as invalid by the active entity (6), triggering a negative event defined in the application definition (3) via interfaces of claim 12 (106, 107, 108, 109) G. Check if application should be stopped, if not proceed with step a 17. The method for a value application of claim 15 in the system of claim 1, comprising the steps of: a. Start the application b. Searching for a Valid Passive Entity (7) via the Interface of Claim 11 (111) c. If no valid passive entity (7) found, go back to step b if valid passive entity (7) with application type «value application» found next with step d d. Active entity (6) reads value amount from data field (203) of the passive entity (7) e. If, triggered by an event via one of the interfaces of claim 12 (103, 104, 105, 112) or defined in the application definition (3), the value amount in the data field (203) of the passive entity (7) can be changed, a trigger occurs a positive event defined in the application definition (3) via interfaces of claim 12 (106, 107, 108, 109) f. If, triggered by an event via one of the interfaces of claim 12 (103, 104, 105, 112) or defined in the application definition (3), the value amount in the data field (203) of the passive entity (7) can not be changed, then a happens Triggering a negative event defined in the application definition (3) via interfaces of claim 12 (106, 107, 108, 109) G. Check if application should be stopped, if not proceed with step a The method for a card application of claim 15 in the system of claim 1, comprising the steps of: a. Start the application b. Searching for a Valid Passive Entity (7) via the Interface of Claim 11 (111) c. If no valid passive entity (7) found, go back to step b, if valid passive entity (7) with application type «card application» found next with step d d. Active entity (6) reads unique hardware identifier from chip hardware (201) of the passive entity (7) e. If the unique hardware identifier is recognized as valid by the chip hardware (201), triggering a positive event defined in the application definition (3) via interfaces of claim 12 (106, 107, 108, 109) f. If the unique hardware identifier is recognized as invalid by the chip hardware (201), triggering a negative event defined in the application definition (3) via interfaces of claim 12 (106, 107, 108, 109) G. Check if application should be stopped, if not proceed with step a. The method for a data application of claim 15 in the system of claim 1, comprising the steps of: a. Start the application b. Searching for a Valid Passive Entity (7) via the Interface of Claim 11 (111) c. If no valid passive entity (7) found, go back to step b if valid passive entity (7) with application type «data application» found next with step d d. If defined in the application definition (3), the active entity (6) reads the data from data field (203) of the passive entity (7) into the operating system (102). e. If defined in the application definition (3), the active entity (6) writes the data previously stored in the operating system (102) into the data field (203) of the passive entity (7). f. If the transfer of the data was successful, a triggering of a positive event defined in the application definition (3) takes place via interfaces from claim 12 (106, 107, 108, 109). G. If the transfer of the data was unsuccessful, a negative event defined in the application definition (3) is triggered via interfaces from claim 12 (106, 107, 108, 109). H. Check if application should be stopped, if not proceed with step a. A system of claim 1, wherein passive entities (7) and mixed active / passive entities (8) are used with at least one or any combination of the following properties: a. RFID / Smart Cards with contactless interface according to ISO 14443 or ISO 15693 (211) b. Smart Cards with ID1 contact interface according to ISO 7816 (210) c. NFC mobile devices according to standard ISO 18092 (211) 21. A system as claimed in claim 1, wherein passive entities (7) and mixed active / passive entities (8) have at least the following constituents: a. Non-volatile data storage, for storing digital information (203) b. Command execution unit for reading and writing data to the memory (202) in accordance with component a. 22. A system of claim 1, wherein an application definition (3) contains at least the following elements: a. Type of application enumerated in claim 15 b. Entities within the application c. Behavior of the entities in use in response to signals at the interfaces of claim 12 and properties of the associated passive entity (7) according to claims 16, 17, 18 and 19 d. Definition of data fields of the active and passive entities (6, 7, 8). 23. A system of claim 1, wherein the distribution server (9) is possible in the following forms: a. Integration of functionality into the programming unit (5) b. Connection of the functionality via a networked and connected computer. 24. Method for creating one of the following applications, which consists of at least one active (6) and at least one passive entity (7) with the system of claim 1, comprising the following steps: a. Creating the application definition (3) with a creation unit (2) according to the coding specification of application definitions (3) b. Transmission of an application definition (3) via a distribution channel (4) to a programming device (5) c. Check the application definition (3) by the programmer (5) for correctness d. Check whether active entity (6) and passive entity (7) are already programmed with operating system (102) or software and data field (203). e. If not yet programmed, program the active entity and passive entity using the programming device (5) with the software defined in the application definition (3). f. Configure active (6) and passive (7) entity with configuration parameters and data fields from the application definition (3).