RU2672144C1 - Method of optical correction of spatial form of premises - Google Patents

Abstract

FIELD: decorative and applied arts.SUBSTANCE: invention relates to the field of arts and crafts, namely, methods of finishing the interior surfaces of premises and can be used to visually correct the spatial shape of the premises. Essence of the invention lies in the fact that optical correction is carried out by an intelligent system based on an analysis of the structural and geometric features of the room. Through continuous playback on the visualizing screen, with distribution throughout the display area, from a set of modeled multi-layer panoramic video images of three-dimensional objects of varying degrees of color saturation and detail, by means of a serial connection between each other, taking into account the parallax, the system automatically generates the absence of straight lines, the interactive visual space of the circular interior, spherical or rectangular shape with subsequent automatic correction of visual geometry. Moreover, at least one panoramic video image has changed proportions, and the remaining panoramic video images have additional layers with hidden elements and objects that become visible at certain perspective angles.EFFECT: panoramic video images have additional layers with hidden elements and objects that become visible under certain perspective angles.8 cl

Description

The present invention relates to the field of arts and crafts, and in particular, to methods for finishing the internal surfaces of premises and can be used for visual correction of the spatial shape of the premises.

To date, methods of visual correction are known, consisting in the features of a person's visual perception of the surrounding space and objects in it. As is known, an important role in the perception of objects is played by a projection image on the retina of the eye, as well as differences in the nature of the image on the retina of the left and right eye (binocular parallax), which serve as the basis for volumetric stereoscopic vision. These features have been known for a very long time, and are widely used in various types of art, as well as in interior design. Such methods include spatial illusions, methods of visual expansion or deepening of space, the desire to show an architectural object against a harmonious background, or to emphasize natural elements in the modern cramped conditions of the city today are relevant and in demand. Space deficit oversaturation of the modern urban environment leads to the emergence of examples of artificial regulation of the "gaze" of the observer, methods of visual correction of space, such as fixed viewing points, hiding undesirable components of the view, emphasizing natural elements, scenographic effects of artificial perspective, space replication, optical illusion effects and others .

From the prior art there is known a method of decorative decoration of the internal surfaces of residential premises (patent RU 2088413 C1 B44D 2/00, 08/27/1997.), In which a pictorial plot in the form of a landscape is applied to the surface of the walls, while fragments of the landscape are additionally placed on the floor surfaces and the ceiling, depicting at the same time a part of landscape objects along the perimeters of the room, window and doorways, with the continuation of the elements of these objects on mating surfaces, while the pictorial plot is applied by painting surfaces.

The disadvantage of this method is its limited capabilities.

There is also a method of visual correction (http://www.cyberinterior.ru), which consists in the fact that the premises are pre-installed on the walls and ceiling with a coating on a non-woven textile material using fluorescent printing and high-tech 3D graphics. Using the coating creates an optical illusion of volume in the interior, significantly expands the space of the room, and also has a 3D visual effect. The maximum result is achieved in the dark when illuminated with a black lamp (BLB). In the daytime, coatings with a 3D effect look like photo wallpapers with saturated colors and very high print quality. The known method also provides the creation of panoramic images.

The disadvantage of this method is the limited possibilities in connection with the use of backlight to achieve the best visual effect, and the photographic picture is presented as a still static image.

There is also a method of interior decoration of premises (application RU 2010151445 A B44C 5/04, 20.06.2012), which consists in the fact that on pre-prepared surfaces of walls and ceilings of neutral colors are installed in the form of a coating, flexible displays on organic LEDs used as a source of visualization video images, at the same time, video signals of the displayed video image of the natural landscape with a slow plan change, which forms a three-dimensional panoramic car, are simultaneously transmitted from the computer device to the displays Inu surrounding space.

Closest to the proposed method is the correction of the spatial shape of the premises (application RU 2014123494 A, B44F 1/00, 12/20/2015), which consists in the fact that optical correction is carried out by visualizing a panoramic 3D video image with a slow change of plan, creating the illusion of volumetric space, This video feed program provides the ability to dynamically change it.

The disadvantage of this method, as well as the previous one, is the ineffective implementation of the possibility of correcting the spatial form due to the fact that the intellectual analysis of the structural and geometric features of the room is not used, followed by automation of the process of creating the visual space of the interior, and automatic adjustment of panoramic video images relative to the position of the observer in the space of the room , for spatial effect.

The task to be solved by the claimed invention is aimed at expanding the possibilities of applying the method in various types of rooms, by automating the process of correcting the spatial form, through the combined use of visualization tools and a self-learning intelligent system.

This problem is solved due to the fact that the smart system is placed in the room, flexible displays with organic LEDs are used to connect it, which are used as a source for displaying images, which are installed seamlessly on monophonic surfaces of walls and ceilings. As well as sensors and sensors, with the help of which the structural and geometric features of the room are analyzed and based on it through continuous playback, with the distribution over the entire display area from the totality of simulated multi-layer panoramic video images of three-dimensional objects of different degrees of color saturation and detail, by serial connection between by itself, taking into account parallax, the system automatically forms an interactive visual space excluding the presence of straight lines ststvo interior space, circular spherical or rectangular shape. With the subsequent automatic correction of visual geometry. Moreover, at least one panoramic video image has altered proportions. And the remaining panoramic video images have additional layers with hidden elements and objects that become visible with certain perspective angles.

The technical result provided by the given set of features is to increase efficiency by automating the process of correcting the spatial form in the existing volume of the physical space of the premises.

The method is as follows.

The software-technical system of intelligent control, which is an artificial intelligence system based on a high-performance computer, capable of solving problems belonging to a specific subject area of architecture and interior design, the knowledge of which is stored in the system’s memory, is preliminarily placed in the selected room. It stores numerous information and methods necessary to solve the tasks. The database also contains a self-learning algorithm that relies on the procedural data of decision evaluations. A visualizing screen consisting of flexible displays with organic light-emitting diodes, which are used as a source for displaying images, which are installed seamlessly on monophonic surfaces of walls and ceilings, is connected to the system through a wired interface. As well as sensors and sensors, which are preferably located around the perimeter of the room, by mounting in the surface of the walls and ceiling directly behind the flexible displays. Using multifunctional sensors, the system analyzes the structural and geometric features of the room, as well as tracking the movement of the observer in space. Using sensors provides interaction with an intelligent interface that allows you to control using voice or gestures. In addition, it is possible to control using an input device in the form of a color touch display with an additional function for projecting a holographic keyboard. Based on an analysis of the structural and geometric features of the room, taking into account the laws of visual perception and ensuring the absence of parallax, from the totality of simulated multi-layer panoramic video images of three-dimensional objects of different degrees color saturation and detail, partially static and dynamic, by connecting If video images are connected by transitions, the system automatically creates an interactive visual space interior space, circular spherical or rectangular, excluding the presence of straight lines. The simulated single volumetric video image of three-dimensional objects is fed continuously to the visualizing screen and distributed throughout the display area. Moreover, at least one panoramic video image has altered proportions. And the remaining panoramic video images have additional layers with hidden elements and objects that become visible with certain perspective angles. With a gradual shift of the viewpoint to the right or left of its central position, elements and objects hidden in additional layers of panoramic video images become visible. This ensures automatic shift of the sequence of three-dimensional video images in the horizontal direction relative to the dynamic position of the observer in the space of the room while maintaining optical symmetry. This enhances the spatial effect of expanding the visual space of the room. The effect of immersion and presence in what is happening in real time is achieved. With subsequent automatic correction of visual geometry: change in the volume of objects and the depth of space throughout the display area on the plane of the visualizing screen, taking into account the nature of the change in the image of objects depending on the distance to them. As the initial video images, real panoramic video images previously captured in any way are used, with the image captured in the horizontal plane at 360 °, in the vertical at 180 ° and processed using computer three-dimensional (3D) graphics to obtain multilayer video images with hidden elements and objects. An intelligent system in the process of self-training, based on the received signals from sensors that monitor the process of moving the observer in the room, automatically creates generalizing rules that the system will subsequently use. An expert knowledge base is automatically formed from generalizing rules, which is periodically updated and a map of viewpoints, which can be dynamic or static, is compiled. According to the obtained algorithm, in the process of constructing the interior composition, the system determines the location of furniture in the room and makes the necessary adjustment of the original video images. In addition, the simulated visual space of the interior may consist of video images of three-dimensional objects and video images of the natural landscape. Depending on the type of room and its purpose, additional application of devices for influencing the emotional sphere of perception is possible.

Examples of carrying out the invention.

Example 1

The design of the children's room.

In the design of children's rooms, special attention is paid to colors. According to the color scheme, children's rooms stand out from all other rooms. It is known that an important factor in the formation of the perception of three-dimensional objects is the use of color and its combinations. Color, as you know, has a strong psychophysiological effect on a person, especially on the forming psyche of a child. The design of children's rooms depends on the hobbies, age and gender of the child. When forming and adjusting the spatial shape of the room, the intelligent system creates optical (visual) illusions, taking into account the laws of visual perception and ensuring the absence of parallax, from the totality of simulated multi-layer panoramic video images of three-dimensional objects of different degrees of color saturation and detail, using the interaction of real space and real objects ( furniture and interior items) with virtual panoramic video images, to give artistic expressiveness, compositional completeness of the interior of the children's room. A feature of human visual perception is that the distance of clear vision of vertical objects is less than horizontal. This is partially due to a visual defect in the eye, the so-called reassessment of vertical lines. The result of optical illusions is the creation of the necessary effect in the visual perception and evaluation of the shape of an object. The plot and themes can be from the series "fantasy, space, other worlds, wildlife", etc. As you know, in the children's room there is an active movement of the observer in the space of the room, the system uses an algorithm for calculating dynamic and / or static viewing points, the use of which provides the ability to automatically change the volume of objects and depth of space in real time over the entire display area on the plane of the visualizing screen, taking into account the nature of the change in the image of objects depending on the distance to them. To achieve the spatial effect of the expansion of visual space, the effect of immersion and presence in what is happening in real time, an offset of the sequence of three-dimensional video images in the horizontal direction is used relative to the dynamic position of the observer in the room while maintaining optical symmetry. In addition, it is possible to simulate the surrounding visual space using an intelligent interface. Additionally, to enhance the emotional impact, devices are installed for generating odors, ionizing and purifying air, and musical accompaniment.

Example 2

Bedroom decoration.

The sleeping room is a place for rest, solitude. To create a cozy and comfortable bedroom, there is a selection of the "right" color scheme, so that thanks to it, transform the interior of a small bedroom and make it visually higher and more spacious. Optical correction of the room is carried out by an intelligent system that automatically models the visual space of a circular spherical or rectangular shape from a combination of multilayer panoramic video images of a picturesque natural landscape with a slow change of plan, or other subjects and plot with varying degrees of saturation and detail to create visual harmony. The factor in the formation of the perception of the visual space and its adjustment is the use of color and its combinations. Color design can contribute to changing the volume of the image of objects, the size and location of objects, creating the effect of expanding the visual space in the room. Indoors, additional devices can also be installed to enhance the emotional impact.

Example 3

The decoration of the bathroom.

On the prepared walls and ceiling, while the walls can be ceramic tiles of a single color, flexible displays are installed in the form of a coating that form a visualizing screen. The simulated video image, consisting of painting images or video images with a three-dimensional effect, is fed continuously to the visualizing screen. In this case, the video images turn into a single whole, excluding the presence of straight lines, three-dimensional three-dimensional visual space, which allows you to create the effect of visual expansion of a small space. Video images can be from the series “seascape, underwater world, waterfall”, etc. Depending on the size of the bathroom, additional devices are installed for generating odors, ionization and air purification, and musical accompaniment. The interior, made using panoramic 3D video images, is able to give the bathroom a special effect.

Thus, the proposed method can be used in various types of rooms, including non-standard structural configurations. Achievement in specific rooms with the help of optical correction of the spatial form of compositional and artistic expression, excluding the presence of straight lines, without using wallpaper coatings and painting the surfaces of walls and ceilings. In addition, the method can be used to create a dynamic design of interior decoration of the premises with a positive visual psychological impact, as well as to create an interactive visual space in the existing volume of the room, through the interaction of real space and real objects with virtual video images.

Information sources.

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Claims (8)

1. A method of optical correction of the spatial shape of the premises, characterized in that an intelligent system is placed in the room, flexible displays with organic LEDs are used, which are used as a source for displaying images, which are installed seamlessly on monophonic surfaces of walls and ceilings, and sensors and sensors, with the help of which the structural and geometric features of the room are analyzed, and based on it through continuous playback, with distribution throughout the area displaying, from the set of simulated multi-layer panoramic video images of three-dimensional objects of different degrees of color saturation and detail, by sequentially connecting to each other, taking into account parallax, the system automatically creates an interactive visual space interior of a circular, spherical or rectangular shape that excludes the presence of straight lines, followed by automatic correction of visual geometry and at least one panoramic video image has been changed proportion, and the other panoramic video has additional layers with hidden elements, and objects, which become visible under certain angles of perspective. 2. The method according to p. 1, characterized in that the original video images are pre-captured in any way real panoramic video images with image capture in the horizontal plane 360 °, vertical 180 ° and processed using computer three-dimensional (3D) graphics for multilayer video images with hidden elements and objects. 3. The method according to p. 1, characterized in that the simulated visual space of the interior consists of video images of three-dimensional objects, partially static and dynamic. 4. The method according to p. 1, characterized in that the simulated visual space of the interior consists of video images of three-dimensional objects and video images of the natural landscape. 5. The method according to p. 1, characterized in that in the process of creating a visual space of the interior, the system automatically determines the location of the furniture in the room and makes the necessary adjustment of the original video images. 6. The method according to p. 1, characterized in that the room provides the ability to interact with the created interactive space. 7. The method according to p. 1, characterized in that it provides the ability to simulate visual space using voice and gestures. 8. The method according to p. 1, characterized in that it is possible to control using the input device in the form of a color touch screen with an additional function for projecting a holographic keyboard.