JP2005184523A - On-vehicle monitoring camera apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable a driver to easily confirm on a monitor an obstacle in the direction of travel even at nighttime. <P>SOLUTION: The on-vehicle monitoring camera apparatus is provided with: a monitoring camera 1 and an infrared camera 5 which are loaded in the rear part of a vehicle for imaging the same rear side of the vehicle; a first video signal processing section 2 for outputting a first video signal from a video image captured with the monitoring camera 1; a monitor 4 for displaying an image on the basis of the first video signal outputted from the first video signal processing section 2; a second video signal processing section 6 for detecting a creature or a moving object from a video image captured with the infrared camera 5 and outputting a second video signal; a position detecting section for detecting the positional information of the creature or moving object from the second video signal; and a display control section 3 for displaying a video image to be displayed on the monitor 4 while highlighting a video portion of a position corresponding to the positional information outputted from the position detecting section 7 on the basis of the first video signal. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an in-vehicle monitoring camera device for displaying an image captured by a camera mounted on a vehicle on a monitor attached in the vehicle and confirming safety during traveling of the vehicle.

2. Description of the Related Art Conventionally, there is known an in-vehicle monitoring camera device that installs a camera toward the front or rear of a vehicle and displays an image captured by the camera on a monitor to assist a driver in traveling. For example, a moving support device for a moving body is known in which a vehicle attached to the rear of a vehicle is used to image the rear of the vehicle and the image is displayed on a monitor so that the vehicle is moved backward while confirming the safety behind the vehicle. (See, for example, Patent Document 1). In addition, in order to display the image displayed on the monitor in three dimensions, a transparent display is provided in front of a normal monitor screen, and an image of a moving object is displayed on this display so that the background behind the image is double projected. A multilayer display device that displays a simulated stereoscopic image is known (see, for example, Patent Document 2).
JP 2002-19523 A Japanese Patent No. 3335998

  However, in a conventional in-vehicle monitoring camera device, when a vehicle is driven at night, the driver can ensure visibility only within a range where the front of the vehicle is illuminated by a headlight and the rear of the vehicle is illuminated by a backlight. Because it is not possible, it is impossible to confirm a living thing or a moving object that exists outside the range illuminated by the headlight or the backlight. For this reason, if the driver determines that there are no creatures or moving objects, and the creatures or moving objects suddenly enter the path along which the vehicle travels, the vehicle must be controlled by the judgment of the trap. There was a problem of not becoming. Furthermore, there is a problem that it is difficult for the driver to see the monitor display at night.

  The present invention has been made to solve such a conventional problem, and an object thereof is to provide an in-vehicle monitoring camera device that allows a driver to easily check an obstacle in the traveling direction even at night. .

  An in-vehicle monitoring camera device according to the present invention is mounted on a vehicle and outputs a first video signal from a monitoring camera and an infrared camera that image at least one of the front and rear directions in the same direction, and an image captured by the monitoring camera. A video signal processing unit, a monitor that displays an image based on the first video signal output from the first video signal processing unit, and a living organism or a moving object from the video captured by the infrared camera. Based on the first video signal, a second video signal processing unit that detects and outputs a second video signal, a position detection unit that detects position information of a living organism or a moving object from the second video signal, and And a display control unit for emphasizing and displaying a video portion at a position corresponding to the position information output from the position detection unit in the video displayed on the monitor.

  With this configuration, when there is a living thing or moving object in front of or behind the vehicle traveling direction at night, even if it is dark and cannot be displayed as an image with a normal surveillance camera, Even if a captured image can detect a living organism or moving object but cannot display it as a normal screen, it acquires the position information of the living organism or moving object present in the normal surveillance camera image from the infrared camera. By emphasizing and displaying the video part of the surveillance camera at the position corresponding to the position information, the driver can confirm the presence of living things and moving objects on the monitor screen, and the obstacle in the driving direction even at night Object confirmation can be performed easily.

  Further, the in-vehicle monitoring camera device of the present invention has a configuration in which the display control unit displays the first video signal portion at a position corresponding to the position information output from the position detection unit with increased brightness. ing. With this configuration, even a portion that is dark and cannot be seen with a normal surveillance camera is displayed brightly in a portion where a living thing or a moving object exists, so that the driver can easily check an obstacle in the traveling direction even at night.

  Further, in the in-vehicle monitoring camera device of the present invention, the display control unit displays a predetermined mark or frame on the first video signal portion at a position corresponding to the position information output from the position detection unit, Or it has the structure which blinks and displays. With this configuration, even if the part is dark and cannot be seen with a normal surveillance camera, the part where living things or moving objects are present can be displayed by simple marks such as ○ and ×, danger display marks, or simple frame display and blinking display. The driver can easily check obstacles in the running direction even at night.

  An in-vehicle monitoring camera device of the present invention is mounted on a vehicle and monitors a front camera or an infrared camera that captures the same direction of at least one of the front and rear, a dual display structure monitor having a rear screen and a front screen, A first video signal processing unit that outputs a first video signal from video captured by the surveillance camera, and outputs a second video signal by detecting a living organism or a moving object from the video captured by the infrared camera. A second video signal processing unit, a first display control unit for displaying an image on a rear screen of the monitor based on the first video signal output from the first video signal processing unit, and the first And a second display control unit that displays an image of a living organism or a moving object on the front screen of the monitor based on the second video signal output from the second video signal processing unit.

  With this configuration, when there is a living thing or moving object in front of or behind the vehicle traveling direction at night, even if it is dark and cannot be displayed as an image with a normal surveillance camera, it is shot with an infrared camera. By displaying the living creatures and moving objects on the front screen of the dual display monitor, the driver can easily check the presence of the living creatures and moving objects in a three-dimensional manner on the monitor screen. Object confirmation can be performed easily.

  An in-vehicle monitoring camera device of the present invention is mounted on a vehicle and detects an obstacle in the same direction as at least one of the front and rear monitoring cameras and the infrared camera, and is detected by the ultrasonic sensor. When the distance from the host vehicle to the obstacle is less than a predetermined value and a signal indicating the position information of the living thing or moving object is input, the first video is measured. It has the structure which emphasizes and displays the part corresponding to the said living body or moving object in a signal.

  With this configuration, when there are living creatures or moving objects behind the vehicle during night driving, they can be displayed only when they are approaching a predetermined distance, which is necessary for the driver. Obstacle approach information can be displayed at a necessary timing.

  An in-vehicle monitoring camera device of the present invention is mounted on a vehicle and detects an obstacle in the same direction as at least one of the front and rear monitoring cameras and the infrared camera, and is detected by the ultrasonic sensor. When the distance from the host vehicle to the obstacle is less than or equal to a predetermined value, the creature or moving object is displayed on the front screen of the monitor.

  With this configuration, when there are living creatures or moving objects behind the vehicle during night driving, they can be displayed only when they are approaching a predetermined distance, which is necessary for the driver. Obstacle approach information can be displayed at a necessary timing.

  Moreover, this invention is a vehicle carrying the above-mentioned vehicle-mounted monitoring camera apparatus, By mounting such a vehicle-mounted monitoring camera apparatus in a vehicle, the load value of a vehicle can be raised.

  The present invention captures a living thing or moving object that is dark and invisible in a normal surveillance camera image with an infrared camera during night driving, and displays it on a monitor so that the living thing or moving object stands out based on the video signal. The driver can provide an in-vehicle monitoring camera device having an effect that the driver can easily check an obstacle in the traveling direction even at night.

  Hereinafter, an in-vehicle monitoring camera device according to an embodiment of the present invention will be described with reference to the drawings.

(Embodiment 1)
The configuration of the in-vehicle monitoring camera device according to the first embodiment of the present invention is shown in FIG. In FIG. 1, an imaging camera 1 is installed at the rear of a vehicle and is composed of a solid-state imaging device such as a CCD or a CMOS. For example, as shown in FIG. Installed. The first video signal processing unit 2 is a signal processor that performs preprocessing, smoothing, A / D conversion, and the like on the video captured by the imaging camera 1 and outputs a first video signal. The display control unit 3 is an image processor that converts the first video signal into an image signal suitable for display and outputs the image signal. The monitor 4 is a thin and light type display such as a liquid crystal display, an EL display, or a plasma display. The infrared camera 5 can detect a living organism or a moving object that generates a certain amount of heat, and is installed adjacent to the imaging camera 1 with the imaging direction in the same direction as the imaging camera 1 at the rear of the vehicle. The second video signal processing unit 6 detects a living organism or a moving object from the video imaged by the infrared camera 5, and also detects the movement of the living organism or the moving object by a background subtraction method or the like and outputs it as a second video signal. . The position detection unit 7 outputs position information of a living thing or a moving object from the second video signal. The timing generator 8 outputs signals for synchronizing the driving timing of the imaging camera 1 and the infrared camera 5, and the imaging timing (scanning timing) and the display timing by the imaging camera 1 and the infrared camera 5. The entire apparatus is controlled by the CPU.

  The operation of the on-vehicle monitoring camera device configured as described above will be described. The video imaged by the imaging camera 1 is subjected to preprocessing such as correlated double sampling and automatic gain control in the first video signal processing unit 2, and then converted into a digital signal and output as a first video signal. The The first video signal is converted into an image signal suitable for display by the display control unit 3 and displayed on the monitor 4. On the other hand, from the video imaged by the infrared camera 5, the second video signal processing unit 6 detects organisms such as humans and animals, and detects whether they are moving objects using a frame memory. And output as a second video signal. Position information of the living thing or the moving object included in the second video signal is detected by the position detection unit 7 at the clock timing in the second video signal. This clock timing is also synchronized with the first video signal by the synchronization signal from the timing generator 8. The obtained position information is sent to the display control unit 3, and the display control unit 3 performs signal conversion so as to emphasize the portion of the first video signal corresponding to the obtained position information, and displays it on the monitor 4. .

  This signal conversion partially changes the luminance of the image displayed on the monitor. That is, based on the timing signal included in the position information, the luminance at that position is made larger than the normal luminance by changing the resistance value. Thereby, in the first video signal, the video of the portion that is dark and not displayed on the monitor 4 is displayed brightly, and the video of that portion is a living body or a moving object imaged by the infrared camera 5, so only the first video signal is displayed. In this case, creatures and moving objects that are not displayed are displayed on the monitor 4.

  As another signal conversion method, the display control unit 3 generates and displays a simple mark such as ◯ and X, a danger display mark, or the like from the character generator at a position corresponding to the position information output from the position detection unit 7. Or by simply displaying a frame or blinking, it is possible to easily check the obstacle at night as well.

  As described above, in the in-vehicle monitoring camera device according to the first embodiment, the monitoring camera 1 and the infrared camera 5 that are mounted on the rear part of the vehicle and image the same rear side of the vehicle, and the first image from the image captured by the monitoring camera 1 are used. A first video signal processing unit 2 that outputs a signal, a monitor 4 that displays an image based on the first video signal output from the first video signal processing unit 2, and an organism captured from images captured by the infrared camera 5 Alternatively, based on the first video signal, a second video signal processing unit 6 that detects a moving object and outputs a second video signal, a position detection unit 7 that detects position information of a living organism or a moving object from the second video signal, and the like. And the display control unit 3 that emphasizes and displays the video portion of the position corresponding to the position information output from the position detection unit 7 among the images displayed on the monitor 4. Creatures behind When there is a moving object, even if a normal surveillance camera is dark and cannot be displayed as an image, and an image taken with an infrared camera is displayed as a normal screen even if a living organism or moving object can be detected Even if it cannot be performed, the position information of the living thing or moving object existing in the image captured by the monitoring camera 1 is acquired from the infrared camera 5 and the video portion of the monitoring camera 1 at the position corresponding to the position information is acquired. Since the display is highlighted, the driver can confirm the presence of a living thing or a moving object on the screen of the monitor 4, and can easily check an obstacle in the traveling direction even at night.

  Therefore, if the in-vehicle monitoring camera device according to the present embodiment is mounted on the rear part of the vehicle, as shown in FIG. 3, the range illuminated by the backlight behind the vehicle when the vehicle is retracted and parked at night. Since it is possible to check living things such as humans and moving objects that exist outside, the driver can avoid the living things and moving objects with a margin. Similarly, if the in-vehicle monitoring camera device according to the present embodiment is mounted on the front portion of the vehicle, it is possible to check living creatures and moving objects that are outside the range illuminated by the headlight in front of the vehicle, and the driver Can avoid the creatures and moving objects with a margin.

(Embodiment 2)
Next, the configuration of the in-vehicle monitoring camera device according to the second embodiment of the present invention is shown in FIG. In FIG. 4, the imaging camera 11 is installed at the rear part of the vehicle and is composed of a solid-state imaging device such as a CCD or a CMOS. For example, as shown in FIG. Installed. The first video signal processing unit 12 is a signal processor that performs preprocessing, smoothing, A / D conversion, and the like on the video captured by the imaging camera 11 and outputs a first video signal. The first display control unit 13 is an image processor that converts the first video signal into an image signal suitable for display and outputs the image signal. As shown in FIG. 5, the monitor 14 has a front screen 14b arranged in parallel at a predetermined distance from the front of a rear screen 14a, which is a normal monitor device. The front screen 14b is a transparent display device such as a liquid crystal display, a plasma display, or an EL display. The infrared camera 15 can detect a living organism or a moving object that generates a certain amount of heat, and is installed adjacent to the imaging camera 11 in the rear part of the vehicle with the imaging direction in the same direction as the imaging camera 11. The second video signal processing unit 16 detects a living thing or a moving object from the video imaged by the infrared camera 15, and detects the movement of the living thing or the moving object by a background subtraction method or the like and outputs it as a second video signal. . The timing generator 18 outputs a signal for synchronizing the driving timing of the imaging camera 11 and the infrared camera 15 and the imaging timing (scanning timing) and the display timing by the imaging camera 11 and the infrared camera 15. The entire apparatus is controlled by the CPU.

  The operation of the on-vehicle monitoring camera device configured as described above will be described. In FIG. 4, the video imaged by the imaging camera 11 is pre-processed by the first video signal processing unit 12, converted to a digital signal, and output as a first video signal. The first video signal is converted into an image signal suitable for display by the first display control unit 13 and displayed on the rear screen 14 a of the monitor 14. On the other hand, from the video imaged by the infrared camera 15, the second video signal processing unit 16 detects living things such as humans and animals, and detects whether they are moving objects using a frame memory. Then, it is sent to the second display control unit 17 as a second video signal. The second display control unit 17 displays the living thing or moving object of the second video signal on the front screen 14 b of the monitor 14.

  As described above, the in-vehicle monitoring camera device of the second embodiment includes the monitoring camera 11 and the infrared camera 15 that are mounted on the rear part of the vehicle and captures the same rear side of the vehicle, and the rear screen 14a and the front screen 14b. A monitor 14 having a multiple display structure, a first video signal processing unit 12 that outputs a first video signal from a video captured by the surveillance camera 11, and a living body or a moving object are detected from the video captured by the infrared camera 15. A second video signal processing unit 16 that outputs a second video signal, and a first display control unit that displays an image on the rear screen 14a of the monitor 14 based on the first video signal output from the first video signal processing unit 12 13 and a second display control unit 17 that displays an image of a living thing or a moving object on the front screen 14b of the monitor 14 based on the second video signal output from the second video signal processing unit 16. Therefore, when a living thing or moving object is present behind the vehicle during night driving, the image captured by the monitoring camera 1 is displayed even if it is dark and cannot be displayed as an image by a normal monitoring camera. By displaying on the rear screen 14a of the monitor 14 and displaying the living thing or moving object imaged by the infrared camera 15 on the front screen 14b of the monitor 14, the driver can view the living thing or moving object on the double screen of the monitor 14. The presence can be easily and three-dimensionally confirmed, and obstacles in the traveling direction can be easily confirmed even at night.

(Embodiment 3)
Next, the configuration of the in-vehicle monitoring camera apparatus according to the third embodiment of the present invention is shown in FIG. In the third embodiment, the same components as those in the first embodiment shown in FIG. The third embodiment is different from the first embodiment described above in that an ultrasonic sensor 21, a sensor signal processing unit 22, and a distance determination unit 23 are added. Accordingly, the operation of the display control unit 24 is also performed. Is different.

  The ultrasonic sensor 21 includes a transmission circuit that transmits ultrasonic waves and a reception circuit that receives reflected waves from an obstacle, and is attached to the rear of the vehicle toward the rear. The sensor signal processing unit 22 measures the distance from the host vehicle to the obstacle based on the time difference between the transmission time of the pulsed sound wave transmitted from the ultrasonic sensor 21 and the reception time of the reflected wave from the obstacle. is there. The distance determination unit 23 determines whether or not the distance to the obstacle detected by the sensor signal processing unit 22 is equal to or less than a predetermined value. The display control unit 24 responds to the position information when the distance to the detected obstacle is equal to or smaller than a predetermined value and the position information of the second video signal is input from the position detection unit 7. The portion of the first video signal to be displayed is highlighted.

  The operation of the in-vehicle monitoring camera apparatus configured as described above will be described with reference to FIG. The video imaged by the imaging camera 1 is pre-processed by the first video signal processing unit 2, and then converted into a digital signal and output as a first video signal (step S1). The first video signal is converted into an image signal suitable for display by the display control unit 24 and displayed on the monitor 4 (step S2). On the other hand, from the video imaged by the infrared camera 5, the second video signal processing unit 6 detects organisms such as humans and animals, and detects whether they are moving objects using a frame memory. And output as a second video signal (step S3). The position information of the living thing and the moving object included in the second video signal is detected by the position detection unit 7 and sent to the display control unit 24 (step S4). In addition, the obstacle is detected by the ultrasonic sensor 21 and the sensor signal processing unit 22, and the distance D to the obstacle is detected (step S5). The distance determination unit 23 sets the distance D to a predetermined value. It is determined whether it is below (step S6), and if it is below the predetermined value, the obstacle approach information is notified to the display control unit 24 (step S7). The display control unit 24 monitors whether or not position information such as a living thing and obstacle approach information is input from the position detection unit 7 (step S8). If input, the display control unit 24 displays the second information displayed on the monitor 4. A signal for emphasizing a portion corresponding to position information such as a living thing in one video signal is output to the monitor 4 (step S9). Thus, information that does not hinder driving operation is not displayed on the monitor 4, and only obstacle information necessary for driving operation can be displayed on the monitor 4.

  As described above, in the in-vehicle monitoring camera device according to the third embodiment, the monitoring camera 1 and the infrared camera 5 that are mounted on the rear portion of the vehicle and image the same rear side of the vehicle, and the monitoring camera 1 and the infrared camera 5 at the rear portion of the vehicle. From the image captured by the surveillance camera 1, the first image signal processing unit 2 that outputs the first image signal from the image captured by the surveillance camera 1, and the image captured by the infrared camera 5. Alternatively, a second video signal processing unit 6 that detects a moving object and outputs a second video signal, a position detection unit 7 that detects position information of a living organism or a moving object from the second video signal, and a first video signal processing unit An image is displayed on the monitor 4 based on the first video signal output from the second video signal, and the distance to the obstacle detected by the ultrasonic sensor 21 is equal to or less than a predetermined value, and a second image indicating a living organism or a moving object is displayed. When a signal is input, the display control unit 24 that highlights and displays the portion is provided. Therefore, when a living thing or a moving object is present behind the vehicle during night driving, Since they are displayed when approaching a predetermined distance, obstacle approach information necessary for the driver can be displayed at a necessary timing.

(Embodiment 4)
Next, the configuration of the in-vehicle monitoring camera apparatus according to the fourth embodiment of the present invention is shown in FIG. In the fourth embodiment, the same components as those in the second embodiment shown in FIG. The fourth embodiment is different from the second embodiment described above in that an ultrasonic sensor 31, a sensor signal processing unit 32, and a distance determination unit 33 are added, and accordingly, the operation of the display control unit 34 is also performed. Is different. The ultrasonic sensor 31, the sensor signal processing unit 32, and the distance determination unit 33 are the same as the ultrasonic sensor 21, the sensor signal processing unit 22, and the distance determination unit 23 of the third embodiment, and thus description thereof is omitted. .

  The operation of the in-vehicle monitoring camera device configured as described above will be described with reference to FIG. The video imaged by the imaging camera 11 is pre-processed by the first video signal processing unit 12, and then converted into a digital signal and output as a first video signal (step S11). The first video signal is converted into an image signal suitable for display by the first display control unit 13 and displayed on the rear screen 14a of the monitor 14 (step S2). On the other hand, from the video imaged by the infrared camera 15, the second video signal processing unit 16 detects living things such as humans and animals, and detects whether they are moving objects using a frame memory. Then, it is sent to the second display control unit 34 as a second video signal (step S13). In addition, the obstacle is detected by the ultrasonic sensor 31 and the sensor signal processing unit 32, the distance D to the obstacle is detected (step S14), and the distance determination unit 33 sets the distance D to a predetermined value. It is determined whether or not it is below (step S15), and if it is below the predetermined value, obstacle approach information is notified to the second display control unit 34 (step S16). The second display control unit 34 monitors whether or not the obstacle approach information is input from the distance determination unit 33 (step S17). If the obstacle display information is input, the second display control unit 34 uses the second video signal on the front screen 14b of the monitor 14. An image of a living thing or moving object is displayed on (Step S18). As a result, images of organisms and the like can be displayed on the front screen 14b of the monitor 14 only when necessary for driving operations without displaying images of the organisms or the like on the front screen 14b of the monitor 14 while there is no hindrance to the driving operation. it can.

  Thus, in the in-vehicle monitoring camera device of the fourth embodiment, the monitoring camera 11 and the infrared camera 15 that are mounted on the rear part of the vehicle and image the same rear side of the vehicle, and the monitoring camera 11 and the infrared camera 15 on the rear part of the vehicle. Output a first video signal from the image captured by the surveillance camera 11 and the ultrasonic sensor 31 installed in the same direction as the monitor 14, the monitor 14 having a dual display structure having a rear screen 14a and a front screen 14b. From the first video signal processing unit 12, the second video signal processing unit 16 that detects a living organism or a moving object from the video captured by the infrared camera 15 and outputs the second video signal, and the first video signal processing unit 12 The distance from the first display control unit 13 that displays an image on the rear screen of the monitor 14 based on the output first video signal and the obstacle detected by the ultrasonic sensor 31 is And a second display control unit 34 for displaying an image of a living thing or moving object on the front screen 14b of the monitor 14 based on the second video signal when the vehicle is below a predetermined value. If there are living creatures or moving objects in the vehicle, they are displayed only when they are close to a predetermined distance, so that the obstacle approach information necessary for the driver can be displayed at a necessary timing. .

  In addition, if the vehicle-mounted monitoring camera device according to the second to fourth embodiments described above is mounted on the rear part of the vehicle, it exists outside the range illuminated by the backlight behind the vehicle when the vehicle is retracted and parked at night. Therefore, the driver can avoid the living thing and the moving object with a margin. Similarly, if the in-vehicle monitoring camera device according to the second to fourth embodiments is mounted on the front part of the vehicle, it is possible to check living things and moving objects that are outside the range illuminated by the headlight in front of the vehicle. The driver can avoid the living thing and the moving object with a margin.

  As described above, the vehicle-mounted surveillance camera device according to the present invention captures a living thing or moving object that is dark and cannot be seen in a normal surveillance camera image with an infrared camera during night driving, and based on the video signal, Since the moving object is displayed on the monitor so that it stands out, it has the effect that the driver can easily check obstacles in the running direction even at night, and the image taken with the camera is displayed on the monitor attached in the vehicle, This is useful as an in-vehicle monitoring camera device for confirming safety during vehicle travel.

The block diagram which shows the structure of the vehicle-mounted monitoring camera apparatus which concerns on the 1st Embodiment of this invention Schematic layout diagram of an imaging camera and an infrared camera installed in a vehicle in an embodiment of the present invention The screen figure which shows the example of a monitor display in the 1st Embodiment of this invention The block diagram which shows the structure of the vehicle-mounted monitoring camera apparatus which concerns on the 2nd Embodiment of this invention. The schematic block diagram which shows the structure of the monitor in the 2nd Embodiment of this invention The block diagram which shows the structure of the vehicle-mounted monitoring camera apparatus which concerns on the 3rd Embodiment of this invention. The flowchart which shows the display operation in the 3rd Embodiment of this invention. The block diagram which shows the structure of the vehicle-mounted monitoring camera apparatus which concerns on the 4th Embodiment of this invention. The flowchart which shows the display operation in the 4th Embodiment of this invention

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Imaging camera 2 1st video signal processing part 3 Display control part 4 Monitor 5 Infrared camera 6 2nd video signal processing part 7 Position detection part 8 Timing generation part 11 Imaging camera 12 1st video signal processing part 13 1st display control part DESCRIPTION OF SYMBOLS 14 Monitor 14a Back screen 14b Front screen 15 Infrared camera 16 2nd image signal processing part 17 2nd display control part 18 Timing generation part 21, 31 Ultrasonic sensor 22, 32 Sensor signal processing part 23, 33 Distance determination part 24 Display control Unit 34 Second display control unit

Claims (7)

  A surveillance camera and an infrared camera that are mounted on a vehicle and captures the same direction of at least one of front and rear, a first video signal processing unit that outputs a first video signal from an image captured by the surveillance camera, and A monitor that displays an image based on the first video signal output from the first video signal processing unit, and a second video signal obtained by detecting a living thing or a moving object from the video captured by the infrared camera. A second video signal processing unit that outputs, a position detection unit that detects position information of a living organism or a moving object from the second video signal, and a video displayed on the monitor based on the first video signal A vehicle-mounted monitoring camera device comprising: a display control unit that highlights and displays a video portion at a position corresponding to the position information output from the position detection unit.   The in-vehicle monitoring camera device according to claim 1, wherein the display control unit displays the first video signal portion at a position corresponding to the position information output from the position detection unit with increased brightness.   The display control unit displays a predetermined mark or frame on the first video signal portion at a position corresponding to the position information output from the position detection unit, or blinks the display. The vehicle-mounted surveillance camera device according to 1.   A surveillance camera and an infrared camera that are mounted on a vehicle and captures the same direction of at least one of the front and rear, a monitor with a dual display structure having a rear screen and a front screen, and a first image based on an image captured by the surveillance camera. A first video signal processing unit that outputs a video signal; a second video signal processing unit that detects a living organism or a moving object from video captured by the infrared camera and outputs a second video signal; and A first display control unit that displays an image on the rear screen of the monitor based on the first video signal output from the first video signal processing unit, and a second display that is output from the second video signal processing unit. A vehicle-mounted monitoring camera device comprising: a second display control unit configured to display an image of a living organism or a moving object on a front screen of the monitor based on the video signal of 2.   An ultrasonic sensor that is mounted on a vehicle and detects an obstacle in the same direction as at least one of the monitoring camera and the infrared camera in front or rear, and measures the distance to the obstacle detected by the ultrasonic sensor; Corresponds to the living thing or moving object in the first video signal when the distance from the own vehicle to the obstacle is not more than a predetermined value and a signal indicating the position information of the living thing or moving object is input. The in-vehicle monitoring camera device according to claim 1, wherein a portion to be displayed is emphasized and displayed.   An ultrasonic sensor that is mounted on a vehicle and detects an obstacle in the same direction as at least one of the monitoring camera and the infrared camera in front or rear, and measures the distance to the obstacle detected by the ultrasonic sensor; The in-vehicle monitoring camera device according to claim 4, wherein when the distance from the own vehicle to the obstacle is equal to or less than a predetermined value, the living thing or the moving object is displayed on a front screen of the monitor.   A vehicle equipped with the in-vehicle monitoring camera device according to any one of claims 1 to 5.

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