RU2692819C1 - Method of projecting an infrared night vision system image onto an inner surface of a windshield of a vehicle and a system for realizing - Google Patents

Abstract

FIELD: image forming devices.

SUBSTANCE: method and system of image projection can be used for dynamic observation in ground, water and air transport. Image projection method includes installation of infrared light sources in direction of vehicle movement, installation of night vision camera in infrared light direction, light-reflecting screen on the windshield in the driver's visual inspection area of the data output device from the night vision camera to the light-reflecting screen. A night vision camera, a light-reflecting screen and a means of outputting data from the night vision camera to the light-reflecting screen are mounted in the longitudinal vertical plane of the vehicle passing through the geometric center of the interior rear-view mirror of the vehicle.

EFFECT: technical result is reduction of image distortion of object when it is projected onto light-reflecting screen.

5 cl, 2 dwg

Description

The group of inventions relates to the field of optical observation in low light conditions and can be used for dynamic observation in land, water and air transport.

A known method of displaying the data of the infrared night vision system on the car dashboard includes installing the infrared lamps in the car headlights, installing the night vision camera in the left part of the car radiator grille and displaying the image from the night vision camera on the car dashboard [https: // www. youtube.com/watch?v=_0wwcU_IlwE, publication date: 07/01/2011].

A known method of displaying the data of the infrared night vision system on the car dashboard, includes installing infrared lamps in the head optics of the car, installing a night vision camera above the cabin mirror of the car and displaying the image from the night vision camera on the display installed in the car dashboard [http://www.mercedes-benz.tj/new-cars/model-overview/item/788-sistema-nochnogo-videniya-night-view-assist-plus-optsiya, publication date: 12/31/2017] .

A disadvantage of the known technical solutions is their limited scope, due to the fact that the methods considered in these technical solutions relate to automotive standard systems, the components of which cannot be dismantled and installed on other vehicles without making major changes in their design.

A method of projecting an image of an infrared night vision system onto the inner surface of a car windshield includes installing infrared light sources in the direction of vehicle movement, installing a night vision camera in the vehicle cabin in the direction of infrared light, installing a reflective screen on the vehicle windshield in a constant area visual control of the vehicle driver and installation of a data output tool Night vision cameras on the reflective screen in the vehicle cabin, with the night vision camera installed in the lower right corner of the windshield, the reflective screen mounted on the left side of the windshield, and the means for outputting data from the night vision camera is installed in the center of the vehicle dashboard [ RU 121092, publication date: 03/20/2015, IPC: G02F 1/01].

The advantage of the prototype is its wide scope due to the versatility of the system components. However, its disadvantage is the distortion of the image of objects and the difference in the position of objects projected on the reflective screen from their actual position on the road in front of the vehicle. This is due to the multi-plane arrangement of the geometric centers of the night-vision camera, the data output means and the reflective screen, which is due to the fact that the installation of these devices is carried out, in fact, in different parts of the vehicle. As a result of this drawback, when the driver uses the infrared night vision system in low light conditions, his visual-spatial orientation on the road becomes difficult, and the traffic situation is not correctly estimated and the distance and position from the vehicle to the object that is in low light conditions can lead to an unintentional arrival of the vehicle to the object, as well as injury to the driver means and other road users. In view of this drawback, there is a need for a method that makes it possible to reduce the risk of distortion of an image of an object when it is projected onto a reflective screen.

The technical problem addressed by the group of inventions is to improve the quality of the projection of the image of the infrared night vision system onto the inner surface of the vehicle windshield.

The technical result, the achievement of which is aimed at the group of inventions, is to reduce the risk of distortion of the image of an object when it is projected onto a reflective screen.

The essence of the group of inventions is as follows.

A method for projecting an image of an infrared night vision system onto the inner surface of a vehicle windshield includes installing infrared light sources in the direction of vehicle movement, installing a night vision camera in the direction of infrared light, and installing a reflective screen on the vehicle windshield in the constant visual control of the driver vehicle installation facility data output from night vision camera a reflective screen in the cabin of the vehicle and the installation of the night vision camera, the light reflecting means and the screen data output from the night vision cameras on a reflective screen in the vertical longitudinal plane of the vehicle. Unlike the prototype, the vertical plane passing through the geometric center of the vehicle's rearview mirror is selected for installing the devices.

The infrared night vision image projection system on the inner surface of the vehicle windshield consists of infrared light sources installed in the direction of vehicle movement, a night vision camera installed in the infrared light direction, a reflective screen mounted on the vehicle windshield and output means data from a night vision camera on a reflective screen mounted in the vehicle cabin, p and this night vision camera, a reflective screen and data output means with night vision cameras on a reflective screen disposed in a longitudinal vertical plane of the vehicle. In contrast to the prototype, the geometric centers of the night-vision camera, the retro-reflective screen, the means for outputting data from the night-vision camera to the retro-reflective screen and the vehicle rearview mirror are located in the same vertical plane.

The installation of infrared light sources in the direction of the vehicle movement makes it possible to highlight objects in the vehicle's path in low-light conditions without interfering with oncoming traffic. At the same time, to enable the vehicle to automatically adjust the direction of light of the infrared range while the vehicle is moving and reduce the risk of distortion of the image of the object, the vehicle’s high beam lamps tuned to the infrared emission mode can be used as infrared light sources.

Installing the night-vision camera in the vehicle cabin in the direction of the infrared light provides the possibility of light reflected from objects in the optical scheme of the night-vision camera. In this case, the camera can be fixed by means of fastening, which can be represented by brackets, flexible holders or silicone inserts on the camera body.

Installing the output data from the night-vision camera on the reflective screen in the vehicle cabin provides the ability to convert data from the night-vision camera to a video image. At the same time as a means of data output can be used a monitor or projector.

Installing a reflective screen on the windshield of the vehicle in the field of constant visual inspection of the driver of the vehicle provides the driver with the opportunity to obtain information about objects in the vehicle path. In this case, the reflective screen can be fixed on the windshield by means of an adhesive layer on the back of the screen or double-sided tape, and a retroreflective film based on polyester, polyester or polypropylene can be used as a reflective screen.

The installation of a night-vision camera, a retro-reflective screen, and a device for outputting data from a night-vision camera to a retro-reflective screen in the longitudinal vertical plane of the vehicle implies such an arrangement of devices relative to each other, with their geometric centers aligned on one line, while the devices themselves can be located different heights and can be installed in different parts of the vehicle. Such an arrangement makes it possible to project an image of objects on the road onto a reflective screen, which is located in the field of visual inspection of the driver of the vehicle without distorting their actual position in the horizontal plane.

Installation of devices can be carried out in a vertical plane passing through the geometric center of the salon rear-view mirror.

Installing devices in a vertical plane passing through the geometric center of the salon rearview mirror of the vehicle reduces the risk of distortion of the image of the object when it is projected onto a reflective screen in vehicles more than 2,200 mm wide, which is caused by the location of the interior rearview mirror in the zone of constant visual control vehicle driver.

Additionally, to reduce the risk of distortion of an image of an object when it is projected onto a reflective screen, the means for outputting data from the night-vision camera to a reflective screen can be positioned so that the angle of reflection of the image from the reflective screen is parallel to the horizontal plane of the vehicle.

The group of inventions has significant distinctive features previously unknown from the prior art, namely, that the vertical plane passing through the geometric center of the vehicle’s rearview mirror is selected to install the devices, thereby eliminating the risk of distortion of the image of the object received by the night-vision camera. projection means a data output on the reflective screen. This is due to the location of the optical center of the night-vision camera and the center of the field of its visual coverage in the same plane with the geometric centers of the image projected by the data output means and the image projected on the reflective screen, which allows to ensure that the object is in the image on the reflective screen fully corresponds to the position of the object on the road, thereby ensuring the achievement of the technical result, which consists in reducing the risk of distortion Nia image object when it Front projection, thereby improving the image quality of the projection of the infrared night vision system on the inner surface of the vehicle windshield.

The presence of new distinctive essential features testifies to the compliance of the group of inventions with the criterion of patentability "novelty."

Techniques are known in the art for projecting an image of an infrared night vision system onto an inner surface of a vehicle windshield, which includes installing a night vision camera in the lower right side of the windshield and installing a reflective screen and means for outputting data from the night vision camera to it in the area of constant visual monitoring. vehicle driver. Also from the prior art a method that includes installing a night-vision camera above the cabin mirror of the vehicle and outputting data from the night-vision camera to the dashboard of the vehicle. However, a method of projecting an image of an infrared night vision system onto the inner surface of a windshield, including the installation of a night vision camera, a reflective screen, and output data from a night vision camera on a reflective screen in a longitudinal vertical plane passing through the geometric center of the vehicle's rearview mirror, reducing the risk of distortion of the image of the object when it is projected onto a retro-reflective screen is unknown in the art, h This allows to make a conclusion about the compliance of the group of inventions with the criteria of patentability "inventive step".

The group of inventions can be implemented using known means, materials and technologies, which indicates the compliance of the group of inventions with the industrial applicability criterion of patentability.

The group of inventions is interconnected and forms a single inventive concept, since the system of projecting the image of infrared night vision on the inner surface of the vehicle windshield is designed to implement a method of projecting the image of infrared night vision on the inner surface of the vehicle windshield, which allows to conclude that it meets the criterion "Unity of invention".

The group of inventions is illustrated by the following figures.

FIG. 1 - Location of the longitudinal vertical axis of the vehicle.

FIG. 2 - The layout of devices in the same vertical plane, passing through the geometric center of the salon rear-view mirror.

The infrared night vision image projection system on the inside surface of the vehicle windshield includes 1 infrared light sources, night vision camera 2, reflective screen 3 and data output means 4 from night vision camera 2 to reflective screen 3. IR light sources 1 are installed in the direction of movement of the vehicle 5, the night-vision camera 2 is installed in the direction of the infrared light and connected to the means 4 for outputting data to the retro-reflective screen 3, while the sources 1, the camera 2 and the means 4 data output connected to the onboard network of the vehicle 5.

A method for projecting an infrared night vision image onto the inner surface of a vehicle windshield is implemented as follows.

The night-vision camera 2, the data output means 4 and the reflective screen 3 are oriented in space so that they are installed in the longitudinal vertical plane of the vehicle 5 (Fig. 2). In this case, depending on the configuration of the vehicle 5, several layouts were used, including the installation of devices in the same vertical plane passing through the geometric center of the rear-view salon mirror 6. To change the layout, they changed the location of the camera 2, the data output means 4 and the reflective screen 3 under the windshield 7. At night, they activated the IR light sources 1 and illuminated the objects 8. The light reflected from the objects 8 and got into the camera lens 2 night vision, processed and projected by means of 4 data output on the reflective screen 3. In all the considered layouts, the position of the objects 8 on the reflective screen 3 completely coincided with their position in front of the transport COROLLARY 5.

Thus, a technical result is achieved, which consists in reducing the risk of distortion of an image of an object when it is projected onto a reflective screen, thereby improving the quality of projection of an image of an infrared night vision system onto the inner surface of a vehicle windshield.

Claims (5)

1. A method of projecting an image of an infrared night vision system onto the inner surface of a vehicle windshield, including installing infrared light sources in the direction of vehicle movement, installing a night vision camera in the direction of infrared light, installing a reflective screen on the vehicle windshield in a constant area visual control of the driver of the vehicle, installation of data output from the camera at night on a reflective screen in the vehicle cabin and installing a night-vision camera, a reflective screen and data output equipment from the night-vision camera on a reflective screen in the longitudinal vertical plane of the vehicle, characterized in that the vertical plane passing through the geometric center of the cabin rearview mirrors of the vehicle. 2. System for projecting an infrared night vision image onto the inner surface of a vehicle windshield, consisting of infrared light sources installed in the direction of travel of the vehicle, a night vision camera installed in the direction of the infrared light, a reflective screen mounted on the windshield of the vehicle and means of data output from the night vision camera to the reflective screen installed in the vehicle cabin a, while the night-vision camera, reflective screen and means for outputting data from the night-vision camera to the reflective screen are located in the longitudinal vertical plane of the vehicle, characterized in that the geometric centers of the night-vision camera, reflective screen, means for outputting data from the night-vision camera to reflective screen and salon mirrors of the vehicle are located in the same vertical plane. 3. The system of claim. 2, characterized in that the infrared light sources are represented by vehicle high-beam lamps, which are configured to emit infrared light. 4. The system of claim 2, wherein the means for outputting data from the night-vision camera to the retro-reflective screen is represented by a monitor or projector. 5. The system under item 2, characterized in that the reflective screen is a retroreflective film based on lavsan.

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