KR20060121595A - Mobile communication terminal with unattended surveillance camera location information display method and method for displaying unmanned surveillance camera location information using it - Google Patents

Abstract

The present invention periodically receives the location information of the surveillance camera installed on the movement route or driving road to move through the GPS unit, and displays and stores the received GPS screen to inform the user of the surveillance camera information in advance. The present invention relates to a mobile communication terminal having a location information display function and a method for displaying location information of an unmanned surveillance camera using the same. An ultrasonic wave and an infrared detector 21 for receiving ultrasonic waves or infrared rays of a specific frequency band emitted by a speed detector of an unmanned surveillance camera 21 ), A storage unit for storing data, a keypad 25 for generating a DTMF signal to make a call or sending and receiving a text, and an LCD for displaying information requested by a user on a screen. 26) and the unmanned surveillance camera detection signal detected by the ultrasonic and infrared detection unit 21 A CPI 280 that receives an input and determines whether the surveillance camera is an unmanned surveillance camera and controls all the above components; A mobile communication terminal 200 having an unmanned surveillance camera location information display function including a microphone for inputting a voice signal and a speaker 29 for outputting a voice signal or generating a warning sound by the control signal of the CPI 280. ), A GPS unit 250 for processing a GPS signal received from a GPS receiver antenna to provide a GPS position information screen, and an unmanned camera detection for executing an unmanned surveillance camera detection mode according to the signal of the keypad 25. And a mode execution program storage unit 220, and the CPI 280 detects the unmanned camera from the unattended camera detection mode execution program storage unit 220 by manipulation of a user's unattended surveillance camera detection mode execution / release selection key. Reads and executes the mode execution program and starts the program based on the save cycle of the GS screen set in the program. Counting the liver is characterized in that the GPS position information screen received from the GS unit 250 for each period is displayed on the LCD 26 and stored in the storage unit.

Description

Mobile terminal having a position information display function and an unmanned monitoring camera and a position informatin display method of the unmannd monitoring camera using the same}

1 is a block diagram showing the configuration of a mobile communication terminal having an unmanned surveillance camera detection function according to the prior art.

2 is a block diagram showing the configuration of a mobile communication terminal having an unmanned surveillance camera position information display function according to the present invention.

3 is a flowchart illustrating an unmanned camera detection mode of a mobile communication terminal having the unmanned surveillance camera position information display function of FIG. 2.

4A to 4C are diagrams illustrating examples of the unattended surveillance camera detection mode setting interface screens and the location information screen of the mobile communication terminal having the unattended surveillance camera position information display function of FIG. 2.

* Description of the major signs in the drawings

21: ultrasonic and infrared detector

200: mobile communication terminal

220: unattended camera detection mode execution program storage unit

250: GPS unit

280: CPI

The present invention relates to a mobile communication terminal having an unmanned surveillance camera position information display function and a method for displaying unmanned surveillance camera position information using the same. More particularly, the present invention relates to GPS information of position information of a surveillance camera installed on a moving path or a driving road to be moved. The present invention relates to a mobile communication terminal having a surveillance camera position information display function for periodically informing and displaying a received GPS screen through a unit and informing the user of the surveillance camera information in advance, and a method for displaying unmanned surveillance camera position information using the same.

1 is a block diagram showing the configuration of a mobile communication terminal having an unmanned surveillance camera detection function according to the prior art.

As shown in FIG. 1, the mobile communication terminal 20 having the unmanned surveillance camera detection function according to the prior art has a specific frequency band (X band (10.525 GHz ± 25 MHz), K band () emitted by the speed detector of the unmanned surveillance camera. An ultrasonic wave and an infrared ray detector 21 for receiving ultrasonic waves or infrared rays in a 24.150 GHz ± 100 MHz) and KA band (34.700 GHz ± 1.3 GHz); Flash 22 for storing data only while the mobile terminal is turned on, SRAM 23 for storing data even when the mobile terminal is turned off, and the electronic contents to be erased and erased. EPI rom 24 that can be stored, a keypad 25 for generating a DFM signal and making a call or sending and receiving a text, and an LCD 26 for showing to a user by displaying information requested by the user on a screen. ), A code 27 for passing a current, and an unmanned surveillance camera detection signal detected by the ultrasonic and infrared detectors 21 to determine whether it is an unmanned surveillance camera in the frequency band, and all the above configurations. CFI oil 28 for controlling wealth; A microphone 29 for inputting a voice signal and a speaker 29 for outputting a voice signal or generating a warning sound by a control signal output according to the determination result of the CPI 28, wherein the ultrasonic and infrared detection unit ( 21) detects a specific frequency band emitted from the unmanned camera and the CPI 28 determines the detected signal to finally control the speaker 29 to output a warning sound.

However, the mobile communication terminal 20 having a conventional unmanned surveillance camera function as described above, the warning sound that can check the position of the unmanned surveillance camera is output at a distance imminent to the unmanned surveillance camera installation position, the driver can reduce the speed There was a problem that caused an accident due to sudden brake operation after the warning sound output.

In general, the GPS (Global Positioning System) is a navigation support system using a GPS satellite, originally developed for military purposes. There are two types of positioning services offered by GS, which are standard positioning services and precision positioning services. Among them, standard positioning services using relatively inaccurate Coarse Acquisition (C / A) codes are open to civilian use. Anyone with a C / A code receiver can find his or her location and time anywhere on Earth.

The GPS is a navigation system that provides location information to mobile vehicles, ships and aircraft equipped with GPS terminals at 20,000 Km, and is installed in most mobile communication terminals due to the convenience of GPS and the low cost of receivers. It is used. Due to the navigation system using GPS satellites such as this, when you travel or go to a strange place, you can be provided with directions on the screen and voice without looking for a map printed on paper.

However, there is a problem in that the cost to be fixedly paid to a specific mobile communication provider when receiving directions using such a GPS.

In addition, it simply informs the current location information through the device equipped with the GPS unit, so you can know the location information of the unmanned surveillance camera at a distance, but you want to know the location information of the driverless surveillance camera along with the driver's location that changes every moment. It does not meet the needs of users.

The present invention is to solve the above problems by acquiring the location information every certain time through the GPS unit to grasp the location information of the unmanned surveillance camera in advance and inform the user unmanned to reduce the damage caused by the unmanned surveillance camera An object of the present invention is to provide a mobile communication terminal having a surveillance camera location information display function.

Another object of the present invention is to obtain the location information every certain time through the GPS unit to grasp the location information of the unmanned surveillance camera in advance and inform the user to display the unmanned surveillance camera location information to reduce the damage caused by the unmanned surveillance camera The purpose is to provide a mobile communication terminal having a function.

According to a preferred embodiment of the present invention for achieving the above object, an ultrasonic wave and an infrared detector for receiving ultrasonic waves or infrared rays of a specific frequency band emitted from a speed detector of an unmanned surveillance camera, and storing for storing data And a keypad to generate a DFM signal to make a call or send / receive a text, an LCD to display information requested by the user on the screen, and to detect an unmanned surveillance camera detected by the ultrasonic and infrared detectors. A CPI to receive a signal and determine whether the surveillance camera is an unmanned surveillance camera in its frequency band, and to control all the above components; A mobile communication terminal having an unmanned surveillance camera location information display function comprising a microphone for inputting a voice signal and a speaker for outputting a voice signal or generating a warning sound by the control signal of the CPI, receiving from a GPS receiver antenna. And a GPS unit for providing a GPS position information screen for processing the GPS signal, and an unattended camera detection mode execution program storage for executing an unattended surveillance camera detection mode according to the signal of the keypad, wherein the CUI is an unattended surveillance of a user. The unattended camera detection mode execution program is read and executed from the unattended camera detection mode execution program storage unit by operating the selection key for camera detection mode execution / release, and the time is counted based on the GPS screen storage cycle set in the program. Provides a mobile communication terminal having an unmanned surveillance camera position information display function characterized in that the processing of the GPS position information screen obtained from the GPS unit to display on the LCD and to store in the storage unit.

Preferably, the CPI receives the location information through the GPS unit in the initial execution of the unmanned surveillance camera detection mode and outputs it on the screen and then stores it, and then receives the location information through the GS unit at every set GS storage screen and outputs it to the screen. It is characterized by storing after.

Also preferably, the CPI outputs the number of unmanned surveillance cameras as text and voice when the unmanned surveillance cameras are detected from the ultrasonic and infrared detectors during the execution of the unmanned surveillance camera detection mode, and stores the detected number in the storage unit. It features.

Also preferably, the CPI may be stored after receiving and displaying the location information of the corresponding area from the GPS unit.

According to another aspect of the present invention, an ultrasonic wave and an infrared detector for receiving ultrasonic waves or infrared rays of a specific frequency band emitted by a speed detector of an unmanned surveillance camera, a storage for storing data, and a DFM signal are generated. Keypad to make a call or send / receive a text message, an LCD to display information requested by the user on the screen, and receive an unattended surveillance camera detection signal detected by the ultrasonic and infrared detectors. A CPI to determine whether it is a surveillance camera and to control all the above components; A method for displaying unattended surveillance camera position information of a mobile communication terminal, comprising a microphone for inputting a voice signal and a speaker for outputting a voice signal or generating a warning sound by the control signal of the CPI oil. A first step of executing a surveillance camera detection mode; Counting a GPS screen storage cycle; And a third step of checking the storage cycle and receiving and outputting the location information through the GPS unit for each cycle and storing the location information on the screen. The method provides a method for displaying unmanned surveillance camera position information of a mobile communication terminal.

Preferably, the location information is received through the GPS unit before the second step, characterized in that the output on the screen and then stored.

Preferably, when the unmanned surveillance camera is detected from the ultrasonic and infrared detectors during the execution of the unmanned surveillance camera detection mode, the number of detection of the unmanned surveillance camera is output as text and voice, and the detection frequency is stored in the storage unit. do.

Also preferably, the CPI may be stored after receiving and displaying the location information of the corresponding area from the GPS unit.

Hereinafter, a mobile communication terminal having an unmanned surveillance camera position information display function and an unmanned surveillance camera position information display method using the same according to the present invention will be described in detail with reference to the drawings.

2 is a block diagram showing the configuration of a mobile communication terminal having an unmanned surveillance camera position information display function according to the present invention.

As shown in FIG. 2, in the mobile communication terminal 200 having the unmanned surveillance camera position information display function, a specific frequency band (X band (10.525 GHz ± 25 MHz), K band which is emitted from the speed detector of the unmanned surveillance camera) An ultrasonic wave and an infrared ray detector 21 for receiving ultrasonic waves or infrared rays in a (24.150 GHz ± 100 MHz) and KA band (34.700 GHz ± 1.3 GHz); Flash 22 for storing data only while the mobile terminal is turned on, SRAM 23 for storing data even when the mobile terminal is turned off, and the electronically stored contents to be erased. EPI rom 24 that can be stored, a keypad 25 for generating a DFM signal and making a call or sending and receiving a text, and an LCD 26 for showing to a user by displaying information requested by the user on a screen. ), An unmanned camera for executing an unmanned camera detection mode according to the signal of the current through the code 27, the GPS unit 250 for processing the GPS signal received from the GPS receiver antenna, and the signal of the keypad 25 The sensing mode execution program storage unit 220 and the unmanned surveillance camera detection signal detected by the ultrasonic and infrared detection unit 21 are received and the frequency It determines whether or not unattended surveillance camera and also with a band ssipiyu 280 for controlling all parts of the configuration; And a speaker 29 for outputting a voice signal or a speaker 29 for generating a warning sound by a control signal output according to the determination result of the CPI 280, the ultrasonic and infrared sensing unit ( 21) and detects a specific frequency band emitted from the unmanned camera, and the CPI 280 determines the detected signal to finally control the speaker 29 to output a warning sound.

The flash 22 stores the number of unmanned camera detections detected by the ultrasonic and infrared detectors 21.

The CPI 280 reads and executes the unattended camera detection mode execution program from the unattended surveillance camera detection mode execution program storage unit 220 by operating the user's unattended surveillance camera detection mode execution / release selection key. Contents, that is, counting the time based on the GPS screen storage period (counted through a timer, not shown), process the location information data received from the GS unit 250 and display it on the LCD 26, and the flash ( 22). The unattended camera sensing mode execution / release selection key may be set to a specific button of the keypad 25 or may be separately provided at a predetermined position on the keypad 25.

Meanwhile, the GPS unit 250 receives the GPS screen every time under the control of the CPI 280. For example, the GPS screen at the current position (G, position information at the beginning of the execution of the unmanned surveillance camera detection mode first) is received. ) Is received, and then the corresponding GS screen storage period is counted, and the GPS screen of the corresponding position is received every time. In addition, even when an unmanned surveillance camera is detected through the ultrasonic and infrared detection unit 21, the GPS screen of the position is set to be received.

In addition, the GPS screens stored after being received through the GS unit 250 may be sequentially displayed at the request of the user.

3 is a flowchart illustrating an unmanned camera detection mode of a mobile communication terminal having the unmanned surveillance camera position information display function of FIG. 2.

As shown in FIG. 3, when the user first selects the unmanned surveillance camera detection mode menu, an initial setting interface screen I1 (the currently set unmanned surveillance camera detection mode) is displayed through the LCD 26 (FIG. 4A). Reference). The displayed contents may be displayed as, for example, "20 minutes of GPS screen storage period, number of unmanned cameras 7".

It is possible to execute the unattended surveillance camera detection mode as well as to immediately execute the execution button without the interface screen (I1) as described above.

CPI 280 determines whether to execute the set unmanned surveillance camera detection mode (ST-2). In the unattended surveillance camera detection mode execution, the user presses a confirmation key by clicking a direction key (arrow among input buttons) on the selection button provided at the bottom of the currently set unattended surveillance camera detection mode displayed on the screen of FIG. In case of execution, the user can modify the contents of the currently set unmanned surveillance camera detection mode by pressing a modification key. The modification and setting process will be described later.

As a result of the determination of step ST-2, when the user selects execution of the currently set unmanned surveillance camera detection mode, it is determined whether there is a GS screen storage cycle thereafter (ST-4), and the GS unit 250 is set for each GS screen storage cycle. Receive the current location information through the display on the LCD (26) screen and stores (ST-6). Thereafter, the CPI 280 determines whether there is an unmanned camera detection signal (ST-8). As a result of the determination of step ST-8, if there is an unmanned camera detection signal, a warning sound is output through the speaker 29, and the number of unmanned camera detection is output as text and voice (ST-10). This allows the user to recognize the number of unmanned cameras that he currently passes.

Meanwhile, in step ST-2, when the unmanned surveillance camera detection mode is not executed, the CPI 280 determines whether to modify the set mode (ST-20). As a result of the determination of step ST-20, if the currently set unattended surveillance camera detection mode modification is selected, an interface screen I2 for modifying the unattended surveillance camera detection mode is displayed to modify the contents of the previously set unmanned surveillance camera detection mode. (See FIG. 4B), the CPI 280 then determines whether a key signal for confirming the correction is input, and if the key signal for confirming the modification of the unattended surveillance camera detection mode is input, the corresponding correction is stored. (ST-24)

On the other hand, in step ST-20, if the set mode is not corrected, the CPI 280 determines whether the new unmanned surveillance camera detection mode is set (ST-30). As a result of the determination of step ST-30, in the case of setting a new unmanned surveillance camera detection mode, the CPI 280 is an interface screen for setting the unmanned surveillance camera detection mode with new contents (not shown, a screen similar to FIG. 4B). IM) is displayed through the LCD 26, and it is then determined whether the GS screen storage cycle is set (ST-32). As a result of the determination of step ST-32, if the GS screen storage cycle is designated, the process proceeds to step ST-24 and stores the corresponding content. If the GS screen storage cycle is not specified, the corresponding message is displayed (ST-34). ), For example, you can display the message "Please specify the GPS screen save interval." Thereafter, the CPI 280 determines whether a predetermined time has elapsed (ST-36), and returns to an initial state when a predetermined time has elapsed.

4A to 4C are diagrams illustrating examples of the unattended surveillance camera detection mode setting interface screens and the location information screen of the mobile communication terminal having the unattended surveillance camera position information display function of FIG. 2.

As shown in the figure, when the user initially wants to execute the unmanned surveillance camera detection mode, first selects the unmanned surveillance camera detection mode on the menu screen (not shown) displayed by the menu key.

Referring to Figure 4a, this is the initial interface screen (I1) of the unattended surveillance camera detection mode selected by the user (but not limited to this, it is also possible to configure the initial screen with a simple content such as setting, modification, cancellation, etc. in the initial screen). have). As such, the contents of the currently set unattended surveillance camera detection mode are displayed on the initial screen. That is, the currently set contents are designated as 20 minutes for saving GPS screen and 7 unmanned cameras.

Reference numerals B1, B2, and B3 are function buttons for correcting, executing, and setting, respectively, and corresponding buttons may be provided in the input unit of the mobile communication terminal (but not limited thereto, and such function buttons are not displayed. When the user presses the menu button again, a pop-up window may display a screen displaying the above content).

The GPS screen storage period is an item that must be set in the unattended surveillance camera detection mode, and in the embodiment of the present invention, one of the items displayed in units of 10 minutes can be selected, and in the embodiment, it is set to 20 minutes, and the user Can be set arbitrarily (not shown). After setting, click the confirm button (B5) to save the contents, and click the cancel button (B6) to return to the initial state. In general, when the user moves the direction key, the corresponding item is highlighted so that the user can select the selected item. Therefore, the detailed description thereof will be omitted. Reference numerals F1 and F2 denote directional keys.

Referring to FIG. 4C, the GPS unit 250 receives the GPS position information screen G of the corresponding region through the GPS receiver antenna and displays the GPS position information G on the LCD 26 during the unattended surveillance camera detection mode. .

Also, although not shown, when the user selects to execute the unmanned surveillance camera detection mode, the user receives the GPS screen at the initial startup, through which the user can identify and input the number of unmanned surveillance cameras installed in the path to be moved in advance.

Reference numerals B7 and B8 denote function buttons for enlarging and reducing the location information screen G. In addition, A and B represent a starting point and a destination, and P represents a movement route. C1, C2 and C3 represent unmanned surveillance cameras installed on the movement path P. FIG. The dotted line represents the user's current location, which changes over time.

Meanwhile, the location information screen G as shown in FIG. 4C is only an example, and a method of displaying current location information may be displayed in various ways. Such a location information screen (G) has the advantage that the user does not need a separate location information service subscription cost because the user is obtained by driving the GPS unit 250 through the CPI 280 only when necessary. Such a service is a form similar to the current self-location information providing service (a service of a user having a mobile communication terminal with a built-in GPS is provided with their current location information). This is a general matter, so a detailed description thereof will be omitted.

Although the present invention has been described above with reference to embodiments, the scope of protection of the present invention is not limited thereto, and modifications to the extent that a person having ordinary skill in the art to which the present invention pertains can easily carry out the present invention may be modified. It should be interpreted as being within the scope of protection.

According to the mobile communication terminal having an unmanned surveillance camera position information display function according to the present invention as described above and an unmanned surveillance camera position information display method using the same, the number of users installed unmanned surveillance camera on the movement route or driving route It is possible to reduce the damage caused by unmanned surveillance cameras because it can be checked in advance through the GPS reception information, and also receive the GPS information of the periodically changing position to grasp its own position and prepare for the installation of the unmanned surveillance cameras in advance. have.

Claims (8)

Ultrasonic and infrared detection unit 21 for receiving ultrasonic waves or infrared rays of a specific frequency band emitted by the speed detector of an unmanned surveillance camera, a storage unit for storing data, and a DFM signal to generate a call or text A keypad 25 for transmitting and receiving a signal, an LCD 26 for displaying information requested by a user on a screen, and an unmanned surveillance camera detection signal detected by the ultrasonic and infrared sensing unit 21 are inputted at the frequency thereof. CPI 280 for determining whether the band is an unmanned surveillance camera and controls all the above components; A mobile communication terminal 200 having an unmanned surveillance camera location information display function including a microphone for inputting a voice signal and a speaker 29 for outputting a voice signal or generating a warning sound by the control signal of the CPI 280. ), A GPS unit 250 which processes a GPS signal received from a GPS receiver antenna and provides a GPS location information screen; It includes an unattended camera detection mode execution program storage unit 220 for executing an unmanned surveillance camera detection mode according to the signal of the keypad 25, The CPI 280 reads and executes the unattended camera detection mode execution program from the unmanned camera detection mode execution program storage unit 220 by operating the user's unattended surveillance camera detection mode execution / release selection key. Unattended surveillance camera position information, characterized in that by counting the time based on the screen storage period to display the GPS position information screen received from the GS unit 250 in the corresponding cycle in each cycle and to store in the storage unit Mobile communication terminal 200 with a display function. According to claim 1, The C 280 receives the position information through the GPS unit 280 at the beginning of the unmanned surveillance camera detection mode output to the screen and then stored, and saves the GPS unit 280 for each set of the GS screen storage cycle thereafter. The mobile communication terminal 200 having an unattended surveillance camera location information display function of receiving and outputting location information on the screen and storing the received location information. According to claim 1, wherein the CPI 280, when the unattended surveillance camera is detected from the ultrasonic and infrared detection unit 21 during the execution of the unattended surveillance camera detection mode outputs the number of detection of the unmanned surveillance camera in text and voice and the number of detection The mobile communication terminal 200 having an unmanned surveillance camera position information display function, characterized in that stored in the storage unit. The mobile communication terminal 200 of claim 3, wherein the CPI 280 receives and displays location information of a corresponding region from the GPS unit 280 and stores the received location information. ). Ultrasonic and infrared detection unit 21 for receiving ultrasonic waves or infrared rays of a specific frequency band emitted by the speed detector of an unmanned surveillance camera, a storage unit for storing data, and a DFM signal to generate a call or text A keypad 25 for transmitting and receiving a signal, an LCD 26 for displaying information requested by a user on a screen, and an unmanned surveillance camera detection signal detected by the ultrasonic and infrared sensing unit 21 are inputted at the frequency thereof. CPI 280 for determining whether the band is an unmanned surveillance camera and controls all the above components; Unattended surveillance camera position information display method of a mobile communication terminal 200 including a microphone for inputting a voice signal, and a speaker 29 for outputting a voice signal or generating a warning sound by the control signal of the CPI 280. To A first step of executing an unmanned surveillance camera detection mode according to a user's request; Counting a GPS screen storage cycle; The third step of receiving the location information through the GPS unit 280 to check the storage period and outputs the information on the screen, and then stores the information; and displaying the location information of the unmanned surveillance camera of the mobile communication terminal 200 Way. The method of claim 5, The method for displaying unmanned surveillance camera position information of a mobile communication terminal (200), characterized in that before receiving the position information through the GPS unit 280, and outputs it on the screen. The method of claim 5, wherein when the unmanned surveillance camera is detected from the ultrasonic and infrared detectors 21 during the execution of the unmanned surveillance camera detection mode, the unattended surveillance camera detection frequency is output as text and voice, and the detection frequency is stored in the storage unit. Unattended surveillance camera position information display method of a mobile communication terminal (200), characterized in that. 8. The method of claim 7, wherein the CPI 280 receives and displays location information of a corresponding region from the GPS unit 250 and stores the received location information.

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