KR100919935B1 - Situation recognition system of Ubiquitous Smart Space - Google Patents

Abstract

A situational awareness system of ubiquitous smart space is disclosed. The situation recognition system of the ubiquitous smart space according to an embodiment of the present invention specifies situation information that may occur in the ubiquitous smart space and receives the generated situation information when situation information corresponding to the stored situation information occurs. A rule repository for storing at least one rule specifying an application; And a plurality of sensor nodes sensing situation information generated in the ubiquitous smart space. It is provided with a context broker for checking whether a rule corresponding to the sensed context information is stored in the rule store, and if the rule is stored, delivering the sensed context information to a designated application.

Description

Situation recognition system of Ubiquitous Smart Space}

The present invention relates to a context aware system, and more particularly, to a context aware system included in the ubiquitous smart space.

Ubiquitous Computing attempts to fuse electronic space and physical space by digitizing the real world. Ubiquitous Smart Space refers to a space to which ubiquitous computing is applied.

Ubiquitous smart spaces should include context-aware systems that are specific to the application domain. The context aware system detects the context information that is the basis of ubiquitous computing, and is an essential component for building a ubiquitous smart space.

The technical problem to be solved by the present invention is to specify a situation that may occur in the ubiquitous smart space and an application that should receive the situation, and a context broker that delivers the situation to the designated application when the specified situation occurs. To provide a cognitive system.

The situation recognition system of the ubiquitous smart space according to an embodiment of the present invention for achieving the technical problem, if the situation information corresponding to the stored situation information, the situation information that is likely to occur in the ubiquitous smart space occurs; A rule store for storing at least one rule specifying an application that should receive the generated situation information; And a plurality of sensor nodes sensing situation information generated in the ubiquitous smart space. It is provided with a context broker for checking whether a rule corresponding to the sensed context information is stored in the rule store, and if the rule is stored, delivering the sensed context information to a designated application.

The context awareness system of the ubiquitous smart space according to an embodiment of the present invention may further include a context widget. The context widget may transmit context information sensed by the sensor nodes to the context broker.

According to an aspect of the present invention, there is provided a situation recognition system of a ubiquitous smart space, comprising: a plurality of sensor nodes sensing situation information generated in the ubiquitous smart space; At least one application for requesting specific context information; And a context broker which selects and transmits the requested specific context information from the context information received from the sensor nodes to the application when the specific context information is requested from the application.

A situational awareness system according to an embodiment of the present invention has an advantage of implementing a context broker specialized in ubiquitous smart spaces.

DETAILED DESCRIPTION In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings which illustrate preferred embodiments of the present invention and the contents described in the drawings.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements.

1 is a block diagram illustrating a situation recognition system of a ubiquitous smart space according to an embodiment of the present invention.

Referring to FIG. 1, the situation awareness system of the ubiquitous smart space according to an embodiment of the present invention includes a rule repository 150, a plurality of sensor nodes 110_1, 110_2,..., 110_n, and a context broker 130. ). 1, a plurality of applications 170_1, 170_2,..., 170_n are shown together.

The rule store 150 stores at least one rule. The rule specifies the situation information that may occur in the ubiquitous smart space and the application that should receive the situation information. That is, when the situation information SI_INIT corresponding to the situation information specified in the rule occurs, the application (for example, 170_1) to receive the generated situation information SI_INIT is designated. For example, the rules for turning on and turning off the television in the ubiquitous smart space can be specified in certain rules. In addition, it is possible to designate a specific application to convey a situation in which the television is turned on (or turned off).

The plurality of sensor nodes 110_1, 110_2,..., And 110_n sense the context information SI_INIT generated in the ubiquitous smart space and transmit it to the context broker 130. For example, when the position of a specific person in the ubiquitous smart space is changed, the sensor node located close to the specific person may sense a situation where the position of the specific person is changed and transmit it to the context broker 130.

The plurality of sensor nodes 110_1, 110_2,..., 110_n may include a position sensor, an illuminance sensor, a pressure sensor, a noise sensor, a control equipment sensor, a service sensor, a voice recognition sensor, a fingerprint recognition sensor, and the like. The location sensor may detect the location of the user or the location of various devices, and the illumination sensor may detect the illumination of the ubiquitous space. In addition, the pressure sensor may detect whether the user is sleeping and the degree of sleep, and the noise sensor may detect noise in the ubiquitous space. In addition, the control equipment sensor can detect the state of the various devices, the service sensor can detect the execution state of the various services. In addition, the voice recognition sensor may detect the recognized voice, and the fingerprint recognition sensor may detect the recognized fingerprint.

The context broker 130 checks whether the rule corresponding to the generated situation information SI_INIT is stored in the rule repository 150, and if the corresponding rule is stored, the context broker 130 sets the generated situation information SI_INIT to the designated application (for example, , 170_1). For example, when the sensor nodes 110_1, 110_2,..., 110_n sense a specific dangerous situation and transmit the detected risk situation to the context broker 130, the context broker 130 may select one of the rules stored in the rule repository 150. Check whether there is a rule corresponding to the specific dangerous situation. As a result of the check, if a rule corresponding to the specific dangerous situation exists, the context broker 130 transmits the specific dangerous situation to an application designated to receive the specific dangerous situation.

The context broker 130 may check whether the rule corresponding to the context information SI_INIT is stored in the rule store 150 using the query form QUERY, and the rule store 150 responds to the query form QUERY. To send the confirmation result REPLY to the context broker 130.

In addition to the situations mentioned above, various situations may be specified in the rule. For example, when a particular dangerous situation has ended, a person is sleeping, a person is awake, a person is awake, a person is sitting on the couch, or a person is taking a shower Etc. may be specified in the rule.

The rule store 150 may store the life time of each rule. The rule store 150 may automatically delete the specific rule whose life time has elapsed when the stored life time elapses since the specific rule is registered. The life time may be set to receive an input from a user, or may be set to have a predetermined default value.

The rule store 150 may store a rule specifying whether to monitor periodically whether specific situation information occurs. In this case, when the context broker 130 receives the situation information SI_INIT designated to be monitored periodically from the sensor nodes 110_1, 110_2,..., 110_n, the context broker 130 receives the received situation information SI_INIT from the application 170_1, 170_2, ..., 170_n). The rule may also be assigned a monitoring cycle. Such a rule may be applied when the applications 170_1, 170_2,..., 170_n need to determine a situation. For example, it may be applied to the periodic monitoring of health information such as heart rate, blood sugar, and body temperature. Alternatively, the present invention may be applied to periodically monitoring the temperature, illuminance, noise, and humidity of the space.

The applications 170_1, 170_2,..., 170_n may provide a function of registering (saving), deleting, or modifying a rule stored in the rule repository 150. The user may register, delete or modify a rule through the applications 170_1, 170_2,..., 170_n. Only registered applications 170_1, 170_2,..., 170_n may be given the right to delete or modify a registered rule.

A plurality of situations SI_INIT same as the situation specified in one rule may occur together. For example, when the same situation SI_INIT occurs in several spaces together, the plurality of sensor nodes 110_1, 110_2,..., 110_n respectively installed in the various spaces may generate the same situation SI_INIT as the context broker ( 130). In this case, the context broker 130 may connect the same situations SI_INIT and transmit them together to the applications 170_1, 170_2,..., 170_n.

The context aware system according to an embodiment of the present invention may further include a context widget (not shown). The context widget (not shown) is located between the sensor nodes 110_1, 110_2,..., 110_n and the context broker 130, and is sensed by the sensor nodes 110_1, 110_2,..., 110_n. The information SI_INIT is transmitted to the context broker 130.

The context widget (not shown) may deliver the context information SI_INIT to the context broker 130 using SetContext (WidgetID, ConceptInstance, Slot, Value). WidgetID is the identifier of the context widget to be transmitted, ConceptInstance is the object pointed to by the contextual information (for example, the space where the contextual information occurred or the person indicated by the contextual information), Slot is the identifier of the contextual information, and Value is the content of the contextual information. Point to. For example, in order to deliver context information that the temperature of the living room is 24 degrees, SetContext ("tempWG", "LivingRoom", "temperature", "24") may be used. Alternatively, SetContext ("LocationWG", "KimMInAh", "locatedIn", "LivingRoom") may be used to deliver context information that the location of the person named Kim Min-A has been changed to the living room. Of course, the names of the variables used above may vary.

If the context recognition system according to an embodiment of the present invention and the type of communication protocol used by the applications 170_1, 170_2,. It may be further provided with an adapter (adaptor) that can support the communication protocol used by the (170_1, 170_2, ..., 170_n).

2 is a diagram illustrating a process of delivering situation information requested from an application by a situation recognition system of a ubiquitous smart space according to an embodiment of the present invention.

In FIG. 1, the context SI_INIT generated by the context broker 130 is transmitted to the applications 170_1, 170_2,..., 170_n. However, in FIG. 2, the applications 270_1, 270_2,..., 270_n may request (QSI) the context broker 230 whether a specific situation has occurred.

When the context broker 230 receives a request for specific context information (QSI) from the applications 270_1, 270_2, ..., 270_n, the context broker 230 receives the context information received from the sensor nodes 210_1, 210_2, ..., 210_n. Among the SIs, it may be checked whether the requested specific context information exists (QSI2). As a result of the check, if the requested specific context information exists, the context broker 230 may deliver the specific context information RSI to the applications 270_1, 270_2,..., 270_n.

The applications 270_1, 270_2,..., 270_n may request (QSI) all contextual information (SI) held by the context broker 230, and the context broker 230 may send a request (QSI). All contextual information (SI) held by the applications 270_1, 270_2, ..., 270_n may be delivered.

As described above, optimal embodiments have been disclosed in the drawings and the specification. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

BRIEF DESCRIPTION OF THE DRAWINGS In order to better understand the drawings cited in the detailed description of the invention, a brief description of each drawing is provided.

1 is a block diagram illustrating a situation recognition system of a ubiquitous smart space according to an embodiment of the present invention.

2 is a diagram illustrating a process of delivering situation information requested by an application to a situation recognition system of a ubiquitous smart space according to an embodiment of the present invention.

Claims (8)

In the situation recognition system of Ubiquitous Smart Space, A rule store for storing the at least one rule for specifying the situation information that may occur in the ubiquitous smart space and for specifying an application to receive the generated situation information when the situation information corresponding to the specified situation information occurs; ; A plurality of sensor nodes that sense context information generated in the ubiquitous smart space; And A context broker which checks whether a rule corresponding to the sensed context information is stored in the rule store, and if the rule is stored, delivers the sensed context information to a specified application; The rule store, Storing a rule specifying whether or not to periodically monitor whether or not specific situation information occurs, The context broker, The situation recognition system of the ubiquitous smart space, if the situation information designated to be monitored periodically occurs, the situation information is transmitted to the application. The method of claim 1, wherein the rule store, Save the life time of each rule, And when the stored time elapses from the registration of a specific rule, automatically deleting the specific rule. delete The method of claim 1, wherein the application, The situation awareness system of the ubiquitous smart space, characterized in that to delete or modify the rules stored in the rule store. The system of claim 1, wherein the situation awareness system comprises: Further includes a context widget, The context widget, The context awareness system of the ubiquitous smart space, characterized in that for transmitting the context information sensed by the sensor nodes to the context broker. delete delete delete

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