KR101013196B1 - Apparatus and method of RFID and real-time sensor data process based on OSGi - Google Patents

Abstract

The present invention relates to an OSGi-based RFID and real-time sensor data processing apparatus and method, and an administrator application unit that allows a manager to input a specific event, and an API for receiving and outputting an event input through the manager application device remotely. And an OSGi-based embedded system unit which determines whether to automatically control a real-time sensor by creating a request specification based on an event remotely received from the API unit, calling a service, and receiving and analyzing a result statement from the outside. A SOAP interface unit for receiving and outputting a request specification and a result statement, and receiving and analyzing the request specification from the SOAP interface unit, collecting sensor data, and the real-time data processing middleware refines the collected sensor data, Real-time sensor to generate and output the result statement Including data processing middleware unit, it can be utilized effectively without any real-time data of the system introduced in the space that requires the real-time data.

Middleware, Real Time

Description

Apparatus and method of RFID and real-time sensor data process based on OSGi}

The present invention relates to an OSGi (Open Service Gateway Initiative) based RFID (Radio Frequency Identification) and a real-time data processing apparatus and method, in particular to enable the control of OSGi-based home network devices and real-time sensors by using real-time data OSGi-based RFID and real-time sensor data processing apparatus and method.

RFID / USN (Ubiquitous Sensor Network) technology is considered as one of the key technologies for realizing ubiquitous computing as a non-contact data acquisition technology that solves the problems of the existing contact data acquisition technology and provides various services. In addition, ubiquitous computing applications are being realized in the form of home networks and telematics, and interest and demand for applying ubiquitous core technologies such as RFID, USN, and context-aware networking to real-time environments such as schools, offices, and homes are increasing. have. In particular, related research and development is in progress in the home network field.

The basics of home networking are to combine home devices or devices into a network and to connect them with an external Internet network to control the devices regardless of the user's location and provide various conveniences. By connecting the home to the information network of the society, it supports the efficient distribution of information, and directly connects various administrative public services and social services (financial and medical services), and uses the home gateway or home server. It maximizes the convenience and efficiency of home life by integrating control of information communication device, digital AV device and existing home appliance. In heterogeneous environments such as hardware platforms, computing, networking protocols, middleware, and services in home networks, OSGi ensures interoperability across local networks, defines open specifications for the deployment and uniqueness of services managed on each device. It solves the problems of disparate environment by solving the problem of distributing effective service that can be obtained by the equipment connection and control and providing the environment for service to be easily developed.

OSGi is a middleware framework that operates independently of the operating system and platform. It is a home gateway technology developed as a platform that bridges heterogeneous networks. OSGi ensures interworking with the physical layer and coexistence with other standard technologies, and provides significant confidentiality by integrating different levels of system security. It is a service platform that provides a computing environment optimized for standardized specifications, component structures, and distributed network services.

As the user's requirements increase in the OSGi-based home network environment, the necessity and demand of the home sensor network are increasing. Indeed, when RFID / USN is applied to home networks, there is a need for middleware that can process large amounts of real-time data in various forms between objects and applications.

RFID / USN middleware is able to cooperate between heterogeneous operating systems, supports distributed processing reliability, network independence, interoperability and transparency between applications and services, manages various sensors, and uses data from the protocols of sensors. It also collects and extracts meaningful information from the collected and raw data or information that is easy to use by the application and delivers it to the application service.

However, in OSGi-based home networks, only the consideration of simple control and event data processing is considered, and the consideration of real-time sensor data stream processing using RFID / USN sensor is insufficient.

Real-time sensor data processing, which was difficult to process in the existing OSGi-based embedded system, is possible, and the middleware is used externally to reduce the load on the OSGi-based embedded system, and the middleware has a standardized interface of various applications and various readers. There is a need for a general purpose middleware that can easily connect readers between various heterogeneous devices.

Therefore, the present invention enables the control of OSGi-based home network devices and real-time sensors by using data collected from real-time sensor processing middleware in OSGi-based application embedded systems. In addition, OSGi-based RFID and real-time enables OSGi-based application developers to create and apply various OSGi-based application services by effectively processing and refining real-time sensor data using the accompanying architecture and application programming interface (API). To provide a sensor data processing apparatus and method.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

The OSGi-based RFID and real-time sensor data processing device of the present invention for solving this object is a manager application device unit for the administrator to input a specific event, and receives the event input through the manager application device unit to remotely output An OSGi-based embedded system unit which determines whether to automatically control a real-time sensor by creating a request specification and calling a service based on an event received remotely from the API unit, and receiving and analyzing a result statement from the outside; A SOAP interface unit for receiving and outputting the request specification and the result statement, and receiving and analyzing the request specification from the SOAP interface unit, collecting sensor data, and the real-time data processing middleware is purified by collecting the sensor data. To generate and output the result statement It includes a sensor data processing middleware.

The OSGi-based embedded system unit is a request specification management unit receives the event from the API unit to create a request specification and a request statement management unit, and a result specification for receiving and analyzing the result statement corresponding to the event in the event request specification An analysis unit, the device control unit which determines whether to automatically control a home network device and a real-time sensor by receiving a result analysis from the result statement analysis unit, and the database manager which stores real-time sensor data extracted from the result specification in a database. Include.

The real-time sensor data processing middleware unit includes a real-time data processing unit for receiving and analyzing an event request specification received from the SOAP interface unit, and a result specification management unit for generating a result statement using the data purified by the real-time data processing unit. .

The real-time data processor is characterized in that the purification of the data.

The OSGi-based RFID and real-time sensor data processing method of the present invention comprises the steps of creating a request specification, transmitting the created request specification, receiving, analyzing and refining the transmitted request specification, and analyzing and refining it. Creating a result statement using the collected data, transmitting the created result statement, receiving and analyzing the transmitted result statement, and whether the result data meets the control condition setting of the home network device. Determining whether the result of the determination is in accordance with the control condition setting of the home network device; controlling the home network device; transmitting the result data to a user and notifying the home network device control result; And storing the result data in a database.

And transmitting the result data to the user if the result data of the determination does not meet the control condition setting of the home network device.

According to the OSGi-based RFID and real-time sensor data processing apparatus and method of the present invention, the real-time data can be easily used in the OSGi-based embedded system, the space requiring real-time data as well as OSGi-based home network, U-City Effective real-time data can be utilized without additional system. In addition, compared to a single system, multiple parallel connection of embedded system enables processing of huge stream data, which reduces the load on the system and can continuously cope with expanding the system infrastructure and maintaining system stability. Can be obtained.

Hereinafter, the OSGi-based RFID and real-time sensor data processing apparatus and method of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing the configuration of the OSGi-based RFID and real-time sensor data processing apparatus of the present invention. As shown, the OSGi-based RFID and real-time data processing apparatus of the present invention is a manager application device unit 100, API unit 110, OSGi-based embedded system unit 120, SOAP interface unit 130, real-time sensor data It includes a processing middleware unit 140 and a real-time sensor and device unit 150.

The manager application device unit 100 is a manager interface means for a manager to input a specific event. The administrator may input various factors related to data collection, such as a real-time data collection cycle and purification conditions, through the manager application device unit 100.

The API unit 110 receives an event input through the manager application device unit 100 and remotely outputs the event. The API unit 110 refers to an interface made to control a function provided by an operating system or a programming language for use in an application program. It mainly provides interfaces for file control, window control, image processing, character control, and the like. The API unit 110 includes an API manager for use by an external administrator.

The OSGi based embedded system unit 120 calls a service by creating a request specification based on an event remotely received from the API unit 110. In addition, the OSGi-based embedded system unit 120 determines whether to automatically control the real-time sensor by receiving and analyzing the result statement from the outside.

2 is a view showing in detail the OSGi-based embedded system unit. As shown, the OSGi-based embedded system unit includes a request specification manager 200, a result statement analyzer 210, a device controller 220, and a database manager 230.

The request specification manager 200 receives an event from the API unit 110 and creates a request statement. The request specification manager 200 receives an event from the API unit 110 in the request specification format, which is prepared in advance, and inputs only a request item so that the request specification in the form of XML (Extensible Markup Language) is created. However, the method of preparing the request specification in the request specification manager 200 is not limited to the above method, but there are various methods.

The result specification analyzer 210 receives and analyzes a result statement that is a result corresponding to an event in the event request specification. The result specification analyzer 210 extracts data previously requested by an administrator from the result specification.

The device controller 220 determines whether to automatically control a home network device and a real-time sensor by receiving a result analysis from the result specification analyzer 210. For example, if a user setting for turning on the humidifier, which is a home network device, is stored in advance in the real-time sensor data when the humidity level in the air is 20% or less, the home network device control module controls the home network devices.

The database manager 230 stores real-time sensor data extracted from the result specification in a database. The database manager 230 stores the real-time sensor data in a database (not shown) for various uses, such as the use history of the real-time sensor. The database may be reset and variously set according to a specific period or a user's selection.

The SOAP interface unit 130 receives and outputs an event request specification and a result specification. Simple Object Access Protocol (SOAP) uses the well-known Hypertext Transfer Protocol (HTTP), Hypertext Transfer Protocol over Secure Socket Layer (HTTPS), and Simple Mail Transfer Protocol (SMTP) to exchange XML-based messages over a computer network. This is a form of protocol. SOAP is the basis for delivering basic messages in web services. The SOAP interface 130 receives and outputs an event request specification and receives and outputs a result statement corresponding to the request specification. The SOAP interface unit 130 includes a remote service manager that manages the transmission of the request specification and the result statement.

The real-time sensor data processing middleware unit 140 receives and analyzes an event request specification from the SOAP interface unit 130 and collects sensor data. The real-time data processing middleware refines the collected sensor data and generates and outputs a result statement.

3 is a diagram illustrating the real-time sensor data processing middleware unit in detail. As shown, the real-time sensor data processing middleware unit 140 includes a real-time data processing unit 300 and a result statement management unit 310.

The real-time data processor 300 receives an event request specification received from the SOAP interface 130. The real-time data processor 300 analyzes the event request specification and collects sensor data that satisfies the type, collection cycle, and collection condition of the required sensor data. In collecting the sensor data, a result value of a real-time sensor and a device connected to the real-time sensor data processing middleware by wire or wirelessly is used.

In addition, the real-time data processing unit 300 purifies the collected data in order to increase the reliability and integrity of the collected data. Purification of the collected data is possible by various methods such as a filter.

The result statement management unit 310 generates a result statement using the data purified by the real-time data processing unit 300. The result statement generated by the real-time data processor 300 is transmitted to the OSGi-based embedded system 120 through the SOAP interface 130.

4 is a flowchart illustrating an OSGi-based RFID and real-time sensor data processing method of the present invention.

As shown, the OSGi-based RFID and real-time sensor data processing method of the present invention creates a request specification (S1). The OSGi-based embedded system unit 120 receives a specific event input through the manager application device unit 100 through the API unit 110. The received specific event is a request specification is created through the request specification management unit 200 in the OSGi-based embedded system unit 120.

The created request specification is transmitted to the real-time sensor data processing middleware unit (S2). The written request specification is transmitted to the real-time sensor data processing middleware unit 140 through the SOAP interface unit 130.

The request specification transmitted to the real-time sensor data processing middleware unit is analyzed and refined (S3). The real-time data processing unit 300 of the real-time sensor data processing middleware unit 140 analyzes data such as the type and collection period of the sensor data required in the received request specification. The analyzed data is refined for reliability and the like.

The result specification is prepared using the analyzed and purified data (S4). The result specification manager 310 of the real-time sensor data processing middleware unit 140 creates a result statement using the purified data.

The written result statement is transmitted to the OSGi-based embedded system unit (S5). The result specification is transmitted to the OSGi based embedded system unit 120 similarly to the method of receiving the event request specification through the SOAP interface unit 130.

The result specification transmitted to the OSGi based embedded system is analyzed (S6).

The OSGi-based embedded system unit 120 determines whether the result data matches the control condition setting of the home network device (S7).

As a result of the determination, if the result data matches the control condition setting of the home network device, the home network device is controlled (S8). The device controller 220 of the OSGi-based embedded system unit 120 controls the home network device according to the result data. The result data is transmitted to the user, and the control result of the home network device 160 is also notified.

If the result of the determination does not meet the control condition setting of the home network device, the result data is transmitted to the user (S9).

The result data is stored in the database (S10). The database manager 230 of the OSGi-based embedded system unit 120 stores real-time sensor data in a database.

On the other hand, while shown and described in connection with a specific preferred embodiment of the present invention, various modifications and changes of the present invention without departing from the spirit or field of the invention provided by the claims below It can be easily understood by those skilled in the art.

1 is a view showing the configuration of the OSGi-based RFID and real-time sensor data processing apparatus of the present invention.

2 is a view showing in detail the OSGi-based embedded system of Figure 1;

3 is a diagram illustrating details of a real-time sensor data processing middleware unit of FIG. 1;

4 is a flowchart illustrating a method for processing OSGi-based RFID and real-time sensor data of the present invention.

Claims (6)

An administrator application device unit for allowing an administrator to input a specific event; An API unit for receiving an event input through the manager application device unit and remotely outputting the event; An OSGi-based embedded system unit that determines whether to automatically control a real-time sensor by creating a request specification based on an event remotely received from the API unit, calling a service, and receiving and analyzing a result specification from the outside; A SOAP interface unit for receiving and outputting the request specification and the result specification; And A real-time sensor data processing middleware unit for receiving and analyzing the request specification from the SOAP interface unit, collecting sensor data, purifying the collected sensor data, and generating and outputting a result specification; Including; The OSGi based embedded system unit; The request specification manager may include a request manager that receives an event from the API unit and writes a request specification in an XML form in a previously written request format; A result specification analysis unit configured to receive and analyze a result specification that is a result corresponding to an event in the event request specification; A device controller configured to receive a result analysis from the result specification analyzer and determine whether to automatically control a home network device and a real-time sensor; And A database manager which stores the real-time sensor data extracted from the result specification in a database; Including, The real-time sensor data processing middleware unit A real-time data processor for receiving and analyzing an event request specification received from the SOAP interface unit and receiving and refining the sensor data with a filter; And A result statement manager for generating a result statement using the purified data; Including Characterized in that the real-time data collection cycle and purification conditions are input through the manager application device, OSGi-based RFID and real-time sensor data processing device, characterized in that the database can be reset according to a specific period or the user's selection. delete delete delete delete delete

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