KR20100091758A - Mobile communication termnial with surveillance function and method for executing the surveillance function - Google Patents

Abstract

Provided are a mobile communication terminal and a monitoring method having a monitoring function for providing a safe environment to a user. The monitoring method according to the present invention, by using an infrared transceiver to measure the distance generated by the infrared rays and reflected by the infrared ray to determine whether the suspicious person or object invaded, if the suspicious person or object invaded the person or object To shoot.

Description

MOBILE COMMUNICATION TERMNIAL WITH SURVEILLANCE FUNCTION AND METHOD FOR EXECUTING THE SURVEILLANCE FUNCTION}

The present invention relates to a mobile communication terminal having a monitoring function and a monitoring method thereof, and more particularly, to a mobile communication terminal having a monitoring function capable of providing a safe environment to a user and a monitoring method thereof.

The current and future communication environment is changing rapidly beyond the distinction between wired and wireless areas and the regional country. Especially, the future communication environment provides real-time or comprehensive information on various information needed by users as well as video and audio. It is changing to a multi-communication environment to be provided. In addition, the development of the personal mobile communication system has been developed not only to perform voice communication in a cellular phone or PCS, but also to transmit text information as well as wirelessly connect to the Internet or transmit and receive video using a personal mobile communication terminal. .

As a result, a surveillance system, which was previously required only by introducing a security company system because hardware such as an expensive camera system is required, can be implemented as a personal mobile communication terminal. That is, a technology for monitoring the movement of a person or an object by developing a camera in a personal mobile communication terminal has been developed.

However, in the conventional personal mobile communication terminal, it is difficult to photograph a moving person or an object even when the indoor is dark, such as when the user is sleeping. In addition, even when the indoor environment is bright, the camera of the personal mobile communication terminal is not equipped with a function of detecting a change in the captured image, so the function as a surveillance camera that can be introduced into a home security system is insufficient.

An object of the present invention is to provide a mobile communication terminal and a monitoring method having a monitoring function that can provide a safe environment to the user.

In the monitoring method of a mobile communication terminal having an infrared transceiver and a camera according to the present invention, when the infrared rays are generated from the infrared transceiver and the infrared rays are returned, the measuring distance is the distance to the point of arrival at which the infrared rays are reflected. A process of measuring, determining whether the measured distance is smaller than a previously stored reference distance, determining that the suspicious person or object has invaded when the measured distance is smaller than the reference distance, and Driving and photographing the suspicious person or object, and transmitting the photograph or image resulting from the photographing to a pre-stored emergency destination.

A mobile communication terminal having a monitoring function according to the present invention includes an infrared transceiver, and generates an infrared ray from the infrared transceiver, and when the infrared rays are reflected back, the measured distance that is the distance to the point of arrival of the reflected infrared rays A distance measuring unit for measuring a; and a control unit for determining whether the measured distance is smaller than a previously stored reference distance, and if the measuring distance is smaller than the reference distance, determining that a suspicious person or object has intruded; And an image capturing unit for photographing the suspicious person or object, and a communication interface unit transmitting a photograph or image captured from the image capturing unit to a pre-stored emergency receiver.

According to the present invention, there is provided a mobile communication terminal having a monitoring function capable of providing a safe environment to a user, and a monitoring method thereof.

According to the present invention, the surveillance function can be implemented only by the camera provided in the mobile communication terminal without introducing the surveillance camera system, so that the user can not provide a separate security system, thereby reducing the cost.

In addition, when a suspicious person or object is detected, the flash of the camera may be driven to photograph the person or object clearly even in a dark situation. In addition, by transmitting the photograph or video taken to the emergency receiver so that the user can inform the emergency and request help without a separate input to the mobile communication terminal.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the same elements in the figures are denoted by the same reference numerals wherever possible. In the following description and the annexed drawings, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

1 is a diagram illustrating a case where a mobile communication terminal having a monitoring function detects a suspicious person according to an embodiment of the present invention.

The mobile communication terminal 10 according to the present embodiment is positioned in a fixed form by a fixed charging station 30 for charging a battery (not shown) of the mobile communication terminal 10, as shown in FIG. An infrared transceiver 19 and a camera 17 are provided on the surface.

The mobile communication terminal 10 supporting the monitoring function is preferably installed in a direction in which movement of a person or an object is not detected. For example, the mobile communication terminal 10 may be installed toward a window or a balcony in a user's house, so that the mobile communication terminal 10 can detect a person entering a room through a window or over a balcony. to be. Commonly, a person or object entering a room through a window or over a balcony may be a suspicious person or object.

Referring to FIG. 1, the infrared rays generated from the left circle of the infrared transceiver 19 of the mobile communication terminal 10 are reflected by hitting the wall 50 and are again transmitted to the right circle of the infrared transceiver 19. The mobile communication terminal 10 measures and stores the distance a from the mobile communication terminal 10 to the wall 50 using the reflection. Since the wall 50 is a fixed object, the same value should be measured even if the mobile communication terminal 10 measures the distance from the mobile communication terminal 10 to the wall 50 at each pre-stored time.

However, if the suspicious person 40 is invaded, the infrared rays generated from the infrared transceiver 19 of the mobile communication terminal 10 do not reach the wall 50 by the suspicious person 40 and again the mobile communication terminal 10. ) Is reflected. Accordingly, the distance measured by the mobile communication terminal 10 is the distance b from the mobile communication terminal 10 to the suspicious person 40. The mobile communication terminal 10 can recognize that a suspicious person has invaded through the change of the measurement distance.

In the present embodiment, it has been described that infrared rays are generated and transmitted from the left circle of the infrared transceiver 19 and receive infrared rays reflected from the right circle. However, according to another embodiment, infrared rays reflected from the left circle are received. Infrared may be generated. In addition, the infrared transceiver 19 may include only one of a left circle and a right circle to perform transmission of infrared rays and reception of reflected infrared rays.

2 is a diagram illustrating a schematic structure of a mobile communication terminal having a monitoring function according to an embodiment of the present invention.

The mobile communication terminal 10 according to the present embodiment includes a communication interface unit 12, a key input unit 14, a display unit 16, an imaging unit 18, a distance measuring unit 20, a memory 22, and a control unit ( 24).

The communication interface unit 12 performs a wireless communication function of the mobile communication terminal 10. The communication interface unit 10 includes an RF transmitter (not shown) for upconverting and amplifying a frequency of a transmitted signal, and an RF receiver (not shown) for low noise amplifying and downconverting a received signal. If it is detected that the suspicious person or object is a chip, the communication interface unit 12 according to the present embodiment may send a photograph or an image taken through the imaging unit 18 described later to a previously stored destination.

The key input unit 14 is provided with keys for receiving numbers and letters and keys for setting various functions to receive input from a user. The key input unit 14 according to the present embodiment may receive a command for driving the monitoring function from the user.

The display unit 16 may be formed of a liquid crystal display (LCD) or the like, and outputs various display data generated by the mobile communication terminal 10. When the LCD is implemented by using a touch screen method, the display unit 16 may operate as an input means. The display unit 16 according to the present exemplary embodiment may display a picture or an image captured by the camera 17.

In addition, the display unit 16 according to the present exemplary embodiment may include a speaker (not shown) and a microphone (not shown). The speaker outputs all voice data generated in the mobile communication terminal 10, and the microphone collects sound generated around the mobile communication terminal 10 and converts the sound into a voice signal. When a suspicious person or object is invaded, the microphone according to the present exemplary embodiment may be driven together with the camera 17 of the imaging unit 18 to be described later to record a sound generated after the intrusion.

The imaging unit 18 includes a camera 17, and converts a signal input through the lens of the camera 17 into data in the form of a picture or a video. When the image pickup unit 18 according to the present embodiment detects that a suspicious person or object is invaded, the image capturer 18 may photograph the person or object. In this case, the imaging unit 18 may drive not only a camera but also a flash to adjust the brightness of an image input through the lens of the camera 17.

The distance measuring unit 20 includes an infrared transceiver 19, and measures the distance using the infrared transceiver 19. As described above with reference to FIG. 1, the distance measuring unit 20 according to the present embodiment has a time until the infrared signal from the mobile communication terminal 10 is reflected at a certain point (hereinafter, 'reach point'), that is, round trip. The distance from the mobile communication terminal 10 to the arrival point, that is, the 'measurement distance' may be measured using time.

The memory 22 may be composed of a program memory and a data memory. The memory 22 stores various kinds of information necessary for controlling the operation of the mobile communication terminal 10. Another memory 22 in this embodiment stores a reference distance. Referring to FIG. 1, the reference distance corresponds to the distance from the mobile communication terminal 10 to the wall 50, and may be measured by the distance measuring unit 20 when a suspicious person or object does not invade. It indicates the measurement distance.

The memory 22 also stores an emergency destination. The emergency destination is a destination for transmitting a photograph or video taken by the imaging unit 18 to notify that a user who uses the mobile communication terminal 10 is in danger when a suspicious person or object is invaded. The emergency destination includes at least one telephone number, an e-mail, or the like stored in the memory 22 of the mobile communication terminal 10.

The controller 24 controls the overall operation of the mobile communication terminal 10. The controller 24 according to the present exemplary embodiment controls the mobile communication terminal 10 to drive the monitoring function when a user input for driving the monitoring function is received through the key input unit 12.

The reference distance is a measurement distance when the mobile communication terminal 10 is located, that is, when a suspicious person or object does not enter the room. Therefore, when the distance measuring unit 20 calculates the distance in which the infrared rays reciprocate at a predetermined time, the value to be calculated should be a reference distance. Preferably, the distance measuring unit 20 should measure the distance measured by the infrared reciprocating in consideration of the error range in the distance measurement.

The controller 24 determines whether the value of the distance measured by the distance measuring unit 20, that is, the measurement distance is smaller than the reference distance previously stored in the memory 22. If it is not smaller than the reference distance, the controller 24 determines that the suspicious person or object does not invade. On the other hand, when the measurement distance is smaller than the reference distance, the controller 24 determines that a suspicious person or object has invaded.

The reason for this determination is that the suspicious person or object is detected between the mobile communication terminal 10 and the point of arrival as can be seen with reference to FIG. 1. As a specific example, it is assumed that the camera 17 and the infrared transceiver 19 of the mobile communication terminal 10 are installed toward the window located at the top of the indoor wall. If the thief sneaks into the room through the window, the infrared rays generated from the infrared transceiver 19 of the mobile communication terminal 10 will not reach the window but will be reflected by the thief and transmitted to the mobile communication terminal 10 again. In such a case, the thief may be regarded as being located between the mobile communication terminal 10 and the window. Therefore, the distance between the mobile terminal 10 and the thief is shorter than the distance between the mobile terminal 10 and the window.

When a suspicious person or object is invaded, the controller 24 controls the camera 17 of the imaging unit 18 to photograph the person or object. In this case, the controller 24 may control to photograph a person or an object invading by using a flash provided in the imaging unit 18. When an intruder occurs in the middle of the night, even if the intruder is photographed by the camera 17, since a sufficient amount of light does not enter the lens, the shape of the intruder may not be properly photographed. The mobile communication terminal 10 according to the present embodiment is to drive the flash (not shown) before shooting in order to prevent the above problems to ensure the amount of light required for shooting.

In this case, the controller 24 may determine whether to use the flash by checking the current time. For example, if the current time is 1:00 pm during the day, you can shoot without turning on the flash. Therefore, the controller 25 may control the imaging unit 18 not to use the flash. On the contrary, since it is preferable to turn on the flash and take a picture at 9 pm, the controller 24 may control the image capture unit 18 to turn on the flash and take a picture.

In addition, the controller 24 may generate a message (hereinafter, referred to as an emergency message) including the corresponding picture or image when the picture or image is captured by the imaging unit 18. When the emergency message is generated, the control unit 24 controls the communication interface unit 12 to transmit the emergency message to the emergency destination. As a result, the user of the mobile communication terminal 10 may notify the emergency destination of his or her emergency. In addition, the control unit 24 may include a pre-stored phrase in the memory 22 when generating an emergency message. For example, the controller 24 may generate an emergency message including the phrase "emergency rescue wind" previously stored in the memory 22.

3 is a flowchart illustrating a monitoring method in a mobile communication terminal having a monitoring function according to an embodiment of the present invention.

First, the controller 24 drives the camera monitoring function (S62). The driving of the monitoring function may be performed by a user input through the key input unit 14. In addition, when the time pre-stored in the memory 22 is reached, the monitoring function may be automatically driven. That is, the user may set the mobile communication terminal 10 to drive the monitoring function from 9 pm to 8 am, for example.

When the monitoring function is driven, the distance measuring unit 20 measures the measurement distance, which is the distance from the mobile communication terminal 10 to the arrival point at which infrared rays arrive at each pre-stored time using the infrared transceiver 19 (S64). The controller 24 determines whether the distance measured by the distance measuring unit 20 is smaller than the reference distance previously stored in the memory 22 (S66).

If the measurement distance of the determination result of step S66 is not smaller than the reference distance (S66: No), the controller 24 controls the distance measuring unit 20 to continuously measure the measurement distance using the infrared transceiver 19 ( S64). On the other hand, if the measurement distance is smaller than the reference distance (S66: Yes), the control unit 24 determines that the suspicious person or object invaded (S68). The controller 24 controls the camera 17 of the image capturing unit 18 to capture a suspicious person or object invading (S70). In this case, the controller 24 may control the mobile communication terminal 10 and store the photographed or video taken in the memory 22.

Thereafter, the communication interface unit 12 transmits the picture or video photographed in step S70 to a destination previously stored in the memory 22 (S72). As a result, the mobile communication terminal 10 can notify the outside of the danger.

1 is a diagram illustrating a case where a mobile communication terminal having a monitoring function detects a suspicious person according to an embodiment of the present invention.

2 is a diagram illustrating a schematic structure of a mobile communication terminal having a monitoring function according to an embodiment of the present invention.

3 is a flowchart illustrating a monitoring method in a mobile communication terminal having a monitoring function according to an embodiment of the present invention.

Claims (9)

In the monitoring method of a mobile communication terminal having an infrared transceiver and a camera, Generating infrared rays from the infrared transceiver and measuring a measurement distance which is a distance to an arrival point at which the infrared rays are reflected when the infrared rays are reflected and returned; Determining whether the measured distance is smaller than a stored reference distance; Determining that the suspicious person or object has invaded when the measurement distance is smaller than the reference distance; Photographing the suspicious person or object by driving the camera; And transmitting the photograph or image resulting from the photographing to a pre-stored emergency destination. The method of claim 1, And if the measurement distance is not smaller than the reference distance, repeating measurement of the measurement distance for each pre-stored time. The method of claim 1, The process of transmitting the photo or video to the emergency destination, Generating an emergency message including the photo or video; And transmitting the emergency message to the emergency destination. In a mobile communication terminal having a monitoring function, A distance measuring unit including an infrared transceiver, generating infrared rays from the infrared transceiver, and measuring a measurement distance which is a distance to an arrival point at which the infrared rays are reflected when the infrared rays are reflected and returned; A control unit for determining whether the measurement distance is smaller than a previously stored reference distance, and determining that the suspicious person or object has invaded when the measurement distance is smaller than the reference distance; An imaging unit for photographing the suspicious person or object; And a communication interface which transmits a photograph or video taken from the imaging unit to a previously stored emergency destination. The method of claim 4, wherein the control unit, And when the measurement distance is not smaller than the reference distance, determining that the suspicious person or object does not invade. The method of claim 5, wherein the distance measuring unit, Mobile communication terminal, characterized in that for repeating the measurement distance for each stored time. The method of claim 4, wherein the control unit, Mobile communication terminal, characterized in that for generating an emergency message including the picture or video. The method of claim 7, wherein the communication interface unit, Mobile communication terminal, characterized in that for transmitting the emergency message to the emergency destination. The method of claim 4, wherein And the image pickup unit photographs the suspicious person or object by operating a flash.

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