KR101157984B1 - Apparatus for providing location imformation and operation method thereof - Google Patents

Abstract

PURPOSE: A location information providing apparatus and operation method thereof are provided to offer accurate location information for an object by creating the location information for a current location and identification information of the object. CONSTITUTION: A wireless sensor(120) outputs a first sensing signal in order to identify an object by recognizing a tag attached to an object. An infrared ray sensor(110) outputs a second sensing signal corresponding to a moving location of the object according to the block of an infrared ray signal by being arranged within a place as a cell unit. A data collecting apparatus(130) creates location information including data corresponding to a sound signal, current location information, and the identification information of the object based on the sound signal, the first sensing signal, and a second sensing signal.

Description

Apparatus for providing location imformation and operation method

The present invention relates to a location information providing apparatus and a method of operating the same, and more particularly, to a location information providing apparatus and an operation method that can provide precise location information for an object moving in an indoor space.

In general, the method of providing location information includes a method using a GPS (Global Positioning System) satellite, an A-GPS (Assisted GPS) method that receives and uses Assistance Data from an operator's network, and Galileo. Or using the Glonass satellite. In addition, there is a Wifi Position Service (WPS) method using the wireless Internet, a Cell-ID method using a Cell ID of a base station to which a user belongs, a method using Bluetooth, and a method using Radio-Frequency IDentification (RFID).

However, such a method of providing location information can basically provide relatively accurate location information about the location of an object that is outdoors, but there is a limit to providing precise location information when an object to be recognized is moving indoors. exist.

Therefore, there is a need for a method of accurately searching for and providing a current position of an object moving indoors, such as a trainer training in an indoor combat training ground.

Accordingly, it is an object of the present invention to provide a location information providing apparatus and an operation method thereof capable of precisely searching and providing a current location of an object moving indoors.

At least one location information providing apparatus according to the present invention for achieving the above object, by recognizing a tag attached to the object to be recognized, and outputting a first detection signal for identifying the object entering the predetermined area of the room At least one infrared detector disposed in a cell unit of a predetermined size in the room, and outputting a second detection signal corresponding to a moving position of the object according to whether an infrared signal is blocked, the first and second detections A data collector configured to generate location information including identification information of the object and information on a current location of the object based on the signal, and receiving the location information to distinguish the current location of the object from other objects. It includes a location information processing server to display. In this case, an RFID (Radio-Frequency IDentification) detector may be used as the wireless detector, and the infrared detector may be arranged in a grid form in the room.

In addition, the operation method of the location information providing apparatus according to the present invention for achieving the above object, by recognizing a tag attached to the object to be recognized, the first detection signal for identifying the object entering the predetermined area of the room Providing at least one wireless detector for outputting, Providing at least one infrared detector arranged in the cell unit of a predetermined size in the room, and outputting a second detection signal corresponding to the moving position of the object, Generating location information including identification information of the object and information on a current location of the object, based on the first and second detection signals when the first and second detection signals are received, and the location In accordance with the information, presently identifying the current location of the object from other objects.

According to the present invention, it is possible to precisely search the current position of the object moving in the room to provide the location information about it. Accordingly, it is possible to provide precise location information on the object moving indoors, such as a trainer training in an indoor combat training ground.

In addition, the location information providing apparatus according to the present invention can provide a high precision location information with a relatively simple configuration, it can also provide such location information to a remote device via a network.

1 is a view showing the configuration of a location information providing apparatus according to an embodiment of the present invention;
2 is a view illustrating an example in which an infrared detector and a wireless detector are disposed indoors in a location information providing apparatus according to an embodiment of the present invention;
3 is a view showing an example in which an infrared detector and a wireless detector are disposed in an indoor combat training ground;
4 is a flowchart provided to explain a method of operating a location information providing apparatus according to an embodiment of the present invention; and
5 is a diagram illustrating an example of a screen indicating location information in a location information processing server.

Hereinafter, with reference to the drawings will be described the present invention in more detail.

1 is a view showing the configuration of a location information providing apparatus according to an embodiment of the present invention. Referring to FIG. 1, the apparatus 100 for providing location information according to the present invention may include first to nth infrared detectors 110a to 110n, first to nth wireless detectors 120a to 120n, and a data collector 130. , The communicator 140, and the location information processing server 160 may be included. The first to nth infrared detectors 110a to 110n and the first to nth wireless detectors 120a to 120n are disposed in the room 200 where the position of the object is detected. In addition, the location information processing server 160 is connected to the communicator 140 through the network 150, but may be directly connected to the communicator 140 or the data collector 130 by wire.

When the components are implemented in an actual application, two or more components may be combined into one component, or one component may be divided into two or more components as necessary.

Each of the first to nth infrared detectors 110a to 110n includes a first detector 110a-1 to 110n-1 including an infrared light emitting sensor and an infrared light receiving sensor for receiving infrared light emitted from the infrared light emitting sensor. It includes a second detector (110a-2 ~ 110n-2) provided. The second detectors 110a-2 to 110n-2 are spaced apart from the first detectors 110a-1 to 110n-1 by a predetermined distance. In addition, the second sensor 110a-2 to 110n-2 by blocking infrared rays while the recognition object passes between the first detector 110a-1 to 110n-1 and the second detector 110a-2 to 110n-2. Detects a state in which the infrared light cannot be received, the sensing signal corresponding thereto is transmitted to the data collector 130.

The first to nth wireless detectors 120a to 120n respectively detect the tags attached to the recognition object in a non-contact manner, and transmit the corresponding detection signals to the data collector 130.

An RFID (Radio-Frequency IDentification) detector may be used as the first to nth wireless detectors 120a to 120n. RFID is a technology that integrates the use of electromagnetic or electrostatic coupling within the radio frequency of the electromagnetic spectrum to identify objects, animals or humans. The advantage of RFID is that it does not have to be in direct contact or to show a specific area and to scan.

An RFID sensor can be comprised with an RFID tag and an RFID reader. An RFID tag consists of an antenna and an integrated circuit, which records information in the integrated circuit and sends the information to the RFID reader via the antenna. This information is used to identify the object to which the RFID tag is attached. The difference between RFID and bar code systems is that they use radio waves instead of light. Thus, RFID tags can be read over long distances rather than operating at short distances, such as bar code readers, and can even receive information through objects in between.

RFID can be classified by the power used. In other words, RFID that reads and communicates chip information of an RFID tag only by the power of an RFID reader is called passive RFID. Semi-passive RFID is a battery with an RFID tag that uses its power to read chip information and a reader's power to communicate. Finally, active RFID uses the power of RFID tags to both read and communicate information on the chip.

RFID is sometimes classified as the frequency of radio waves used for communication instead of power. Low frequency RFID is called Low-Frequency IDentification (LFID), which uses radio waves of 120 to 140 kilohertz (KHz). High-Frequency IDentification (HFID) uses 13.56 megahertz (MHz) radio waves, and UHFID (Ultra High-Frequency IDentification) uses radio waves in the 868 to 956 megahertz (MHz) band.

The data collector 130 may include identification information of an object moving in a specific indoor space according to detection signals received from the first to nth infrared detectors 110a to 110n and the first to nth wireless detectors 120a to 120n. Create location information including information about the current location.

The location information generated by the data collector 130 is transferred to the location information processing server 160 connected through a network 150 such as a wired or local area network or the Internet through the communicator 140. In FIG. 1, only one data collector 130 is displayed for convenience of description, but in a practical application, a plurality of data collectors 130 may be provided.

The location information processing server 160 may identify an object located in the indoor 200 according to the location information received through the network 150, and display the current location of the object on a display (not shown) provided with the object. In addition, the location information processing server 160 may be configured to output image information photographed from a camera (not shown) located in the indoor 200 and a sound signal detected through a microphone (not shown), and to process location information. The voice signal may be transmitted to the room 200 through a microphone (not shown) provided in the server 160.

2 is a diagram illustrating an example in which an infrared detector and a wireless detector are disposed indoors. As shown in FIG. 2, the specific indoor space 300 is divided into four regions 301, 303, 305, and 307 so as to recognize a tag attached to an object to be recognized on the floor or ceiling of each region. First to fourth wireless detectors 120a to 120d are installed. In addition, the first to sixth infrared detectors 110a to 110f are disposed in the cell unit 300 in the grid 300.

In this way, the first to fourth wireless detectors 120a to 120d and the first to sixth infrared detectors 110a to 110f are disposed in the indoor space 300, so that the first to fourth regions 301, 303, 305, An object entering any one of areas 307 may be identified through any one of the first to fourth wireless detectors 120a to 120d, and an object may be identified through tag information attached to an object to be recognized. .

In addition, according to whether the infrared rays are blocked by the first to sixth infrared ray detectors 110a to 110f as the object moves, the movement position according to the movement of the object may also be grasped. In this case, the positional movement of the object in the room 300 may be more precisely determined according to the distance between the infrared detectors. For example, when the infrared detectors are arranged at intervals of about 30 cm, whenever the object to be recognized moves 30 cm or more, the moving position of the object may be determined by infrared blocking.

In addition, when a plurality of objects to be recognized enters the indoor space 300, each object may be identified according to a detection signal received from a wireless detector, and the detection signal received from the infrared detector closest to the first detected position. So you can see which object moved where.

Figure 3 shows an example where the wireless detection and infrared detectors are arranged in the room, such as indoor combat training grounds. As shown in FIG. 3, the wireless detectors 120a to 120c are installed on the floor or the ceiling for each partitioned area, and the infrared detectors 110a, 110b,... Are arranged in a grid shape. Then, a tag that can be detected by the wireless sensor (120a ~ 120c) to the body of the trainer entering the indoor combat trainer.

By this configuration, according to the detection signals received from the wireless detector (120a ~ 120c) and the infrared detectors (110a, 110b, ...), it is possible to identify who is the trainer who is moving in the indoor combat training ground, The current location 350 of the trainer can also be pinpointed. .

In addition, since the wireless detector and the infrared detector are used, the current position of the trainer can be precisely searched and displayed even in a state where the vision is not secured by the smoke screen or the like. In addition, by installing a microphone, a speaker, a camera, etc. in the indoor combat training ground, it is possible to output the video and audio signals of the indoor combat training ground from the control center, it is also possible to transmit a voice signal from the control center to the indoor combat training ground.

4 is a flowchart provided to explain a method of operating a location information providing apparatus according to an embodiment of the present invention.

Referring to FIG. 4, the data collector 130 determines whether a first sensing signal is received from the first to nth wireless sensors 120a to 120n (S400). When the first detection signal is received, the data collector 130 may identify which object has entered which area according to the first detection signal (S405).

In addition, the data collector 130 determines whether a second detection signal is received from the first to nth infrared detectors 110a to 110n (S410). When the second detection signal is received, the data collector 130 may determine the moving position of the object entering the specific area (S415).

The data collector 130 generates location information including identification information of the object and information on the current location according to at least one of the first detection signal transmitted from the wireless detector and the second detection signal transmitted from the infrared detector ( S420).

The data collector 130 transmits the generated location information to the location information processing server 160 through the communicator 140 (S425). The location information processing server 160 may display the current location of the object so as to be distinguishable from other objects according to the received location information.

This process is repeatedly performed until the end of the operation is selected (S430). In addition, by this process, it is possible to accurately display the current position of the object moving in the room, and to be distinguishable from other objects.

5 illustrates an example of a screen indicating location information in the location information processing server. As shown in FIG. 5, a screen 500 indicating an indoor structure is displayed on a display unit provided in the location information processing server 160, and the current location 550 and the object of the object identified according to the received location information are displayed. Identifying information 553 may be displayed on the screen 500. In addition, the object may be displayed at the moved position according to the movement of the object.

Such a screen may be displayed by the location information processing server 160, but when the location information is transmitted through the mobile communication network, the current location, the location information and the related information may also be displayed through the mobile terminal. .

As described above, the apparatus for providing location information according to the present invention may display the current location of the object moving indoors together with identification information, such as a trainer training in an indoor combat training ground. In addition, the location information providing apparatus according to the present invention can be used for security purposes, such as detection of intruders.

In addition, the position information providing apparatus according to the present invention provides high-precision position information, but by using a wireless sensor and an infrared detector, the power consumption is low, the configuration can be made at a relatively low cost, and maintenance and repair costs are also low. .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It should be understood that various modifications may be made by those skilled in the art without departing from the spirit and scope of the present invention.

110: infrared detector 120: wireless detector
130: data collector 140: communicator
150: location information processing server

Claims (10)

At least one wireless detector recognizing a tag attached to an object to be recognized and outputting a first sensing signal for identifying an object entering a predetermined area of the room;
At least one infrared detector disposed in the room by a cell having a predetermined size and outputting a second detection signal corresponding to a moving position of the object according to whether an infrared signal is blocked;
A microphone detecting an acoustic signal in the room;
Based on the first detection signal, the second detection signal, and the sound signal, location information including the identification information of the object, information on a current position of the object, and data corresponding to the sound signal is generated. A data collector; And
And a location information processing server that receives the location information, displays the current location of the object so as to be distinguishable from other objects, and outputs the sound signal. The method of claim 1,
The wireless sensor is a location information providing device, characterized in that the RFID (Radio-Frequency IDentification) detector. The method of claim 1,
The infrared detector is located in the room in the form of a grid, characterized in that disposed in the room. The method of claim 1,
And a communicator for transmitting the location information to the location information processing server through a network. The method of claim 1,
Each of the at least one infrared detector,
A first detector having an infrared light emitting sensor for emitting infrared light; And
And a second detector disposed to be spaced apart from the first detector to receive infrared light emitted from the infrared light emitting sensor, and outputting the second detection signal when the infrared light is blocked. . The method of claim 1,
The location information providing device, characterized in that it further comprises data corresponding to the image taken in the room. Providing at least one wireless detector that recognizes a tag attached to an object to be recognized and outputs a first detection signal for identifying an object entering a predetermined area of the room;
Providing at least one infrared detector disposed in the room by a cell having a predetermined size and outputting a second detection signal corresponding to a movement position of the object;
Detecting an acoustic signal of the room;
Upon receiving the first and second detection signals, on the basis of the first detection signal, the second detection signal, and the sound signal, identification information of the object, information on the current position of the object, and the sound Generating location information including data corresponding to a signal; And
And displaying the current position of the object so as to be distinguishable from other objects according to the position information, and outputting the sound signal. The method of claim 7, wherein
The wireless detector is a method of operating a location information providing device, characterized in that the RFID (Radio-Frequency IDentification) detector. The method of claim 7, wherein
And outputting an image signal photographing the room. The method of claim 7, wherein
The infrared detector is a method of operating the location information providing apparatus, characterized in that arranged in the room in the form of a grid.

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