CN110399772B - Equipment control system based on environmental analysis - Google Patents

Abstract

The invention relates to an equipment control system based on environmental analysis, which comprises: the artificial flower mechanism is arranged in the house and comprises a single-rod flowering branch and a plurality of petals, and the petals are uniformly distributed on the single-rod flowering branch; the automatic blooming device comprises a driving motor, is used for controlling the opening degree of each petal of the false flower mechanism, and is connected with the gorgeous degree identification device, so that the higher the gorgeous degree of the house environment is, the larger the opening degree of each petal of the false flower mechanism is. The equipment control system based on the environmental analysis is simple in principle and effective in design. The beauty of the internal environment of the house is determined in a targeted manner so as to match the color tone of the house with the color tone of the false flower mechanism by the blooming degree of the petals of the false flower mechanism in the house based on the determination result.

Description

Equipment control system based on environmental analysis

Technical Field

The invention relates to the field of intelligent furniture, in particular to an equipment control system based on environmental analysis.

Background

Furniture refers to a large category of appliances and facilities essential for human beings to maintain normal life, engage in production practice and develop social activities. Furniture is continuously developed and innovated following the foot steps of the times, and is an important foundation for establishing working and living spaces, wherein the furniture is various in door types, different in materials, complete in variety and different in purposes at present.

The furniture is composed of four factors of materials, structures, appearance forms and functions, wherein the functions are the leading factors and the power for promoting the development of the furniture; the structure is a backbone and is the basis for realizing the functions. These four factors are interrelated and restrictive. Furniture also has material and appearance form factors, as it is designed and manufactured to meet certain material needs and use purposes. The furniture is a wardrobe, a table, a bed, a sofa and other large articles.

Disclosure of Invention

The invention has at least the following key invention points:

(1) the method comprises the steps of performing targeted judgment on the gorgeous degree of the internal environment of the house so as to obtain the blooming degree of a plurality of petals of a false flower mechanism in the house based on the judgment result, and keeping the color tone of the house consistent with the color tone of the false flower mechanism;

(2) different filtering processes are respectively performed for a red component sub-image, a green component sub-image, and a blue component sub-image of an image to perform different image processes for respective color components based on different component characteristics.

According to an aspect of the present invention, there is provided an environment analysis-based device control system, the system including:

more specifically, in the environmental analysis-based device control system, the system further includes:

the artificial flower mechanism is arranged in the house and comprises a single-rod flowering branch and a plurality of petals, and the petals are uniformly distributed on the single-rod flowering branch;

the component identification equipment is connected with the distortion adjusting equipment and used for acquiring each R component value of each pixel point in the real-time adjusting image, sequencing the R component values from large to small, and outputting the R component value with the central sequence number as a reference component value;

the brightness degree identification device is an SOC chip, is connected with the component identification device and is used for determining the corresponding room environment brightness degree based on the reference component value, wherein the larger the reference component value is, the higher the determined room environment brightness degree is;

the automatic blooming device comprises a driving motor, is used for controlling the opening degree of each petal of the false flower mechanism and is connected with the gorgeous degree identification device, so that the higher the gorgeous degree of the house environment is, the larger the opening degree of each petal of the false flower mechanism is;

the wired acquisition equipment is arranged in the house and used for carrying out field image data acquisition on the scene inside the house so as to obtain and output a corresponding house internal image;

the parameter identification device is connected with the wired acquisition device and used for receiving the house internal image and identifying the frame rate of the image sequence in which the house internal image is positioned so as to obtain and output a corresponding real-time frame rate;

the signal sending equipment is connected with the parameter identification equipment and used for receiving the real-time frame rate and sending a first trigger command when the real-time frame rate exceeds a preset frame rate threshold value;

the signal sending device is further configured to send a second trigger command when the real-time frame rate is lower than or equal to the preset frame rate threshold.

The equipment control system based on the environmental analysis is simple in principle and effective in design. The beauty of the internal environment of the house is determined in a targeted manner so as to match the color tone of the house with the color tone of the false flower mechanism by the blooming degree of the petals of the false flower mechanism in the house based on the determination result.

Detailed Description

An embodiment of the environmental analysis-based apparatus control system of the present invention will be described in detail below.

Aiming at the current home decoration concept and thinking, the home decoration forms with various cultural connotations and style characteristics are presented according to the requirements of the resident on the aspects of character, age, occupation, cultural level, aspiration, hobbies and the like, and the styles of the home decoration forms mainly comprise the following types:

the traditional style of China: chinese traditional Chongshang is heavy and elegant. The traditional Chinese wood frame is used for constructing indoor decoration such as a ceiling, a screen, a partition and the like of the algae well. Most of the pen colors adopt a symmetrical space composition mode, the pen colors are heavy and simple, and the space atmosphere is quiet, elegant and simple.

The style of the country is as follows: mainly characterized by respecting the traditional habits and the temperament of folk, keeping the folk characteristics and paying attention to the local building materials or the local story-telling and the like as the subject of decoration. Strive to express leisure and comfortable garden life interest in the indoor environment and create natural, simple and elegant space atmosphere.

And (3) natural style: chongshang returns to plain and natural, abandons the products made of artificial materials, and applies natural materials such as wood, masonry, straw and cotton cloth to indoor design. The method is particularly suitable for villa buildings and is popular with people.

And (3) antique style: when the requirements of people on modern life are continuously met, a traditional furniture display with artistic value towards the tradition, the old ornaments are reminiscent, and the traditional furniture display is matched with decorative fabrics such as wallpaper, curtain mantle, carpet, furniture outer covers and the like with the same style, so that a modesty and elegant noble atmosphere is added indoors.

Western classical style: this is a classic style pursuing luxurious and elegant. The color of the room is mainly white. The furniture is of classical bent leg type, and the furniture, the door and the window are painted in white. A beautiful curtain tent which is good at various decorations and rich wood line changes is a fixed mode of Western-style traditional indoor decoration, and the space environment mostly shows gorgeous, beautiful and romantic atmosphere.

Western modern style: the furniture is characterized by simplicity, clarity and rapidness, the use efficiency of indoor space is emphasized, the principle that indoor arrangement is distinguished according to functions is emphasized, furniture arrangement is closely matched with the space, redundant and fussy additional decorations are advocated, and the quality and the charm are improved. In addition, decorative colors and styling follow fashion.

The Japanese style: the space modeling is very simple, and the furniture display takes the tea table as the center. Hybrid style (combined chinese and western style): the space structure not only teaches modern practicality, but also absorbs traditional characteristics, and integrates Chinese and western in decoration and display. Like traditional screen, tea table, modern style wall painting and door and window decoration, novel sofa makes the people feel alone.

Among them, the artificial flowers are very popular among people as important furniture decorations with the advantages of no need of care, convenient use, no withering and the like.

Currently, in a home environment, a fake flower is frequently used as important furniture which is convenient for adjusting the color tone of the environment where the fake flower is located, however, a mechanism for controlling the blooming degree of the fake flower is not provided at present, so that the blooming degree of the fake flower is set when the fake flower leaves a factory, and the fake flower cannot be flexibly changed according to the color tone of the environment where the fake flower is located.

In order to overcome the defects, the invention builds an equipment control system based on environmental analysis, and can effectively solve the corresponding technical problem.

An environmental analysis-based device control system according to an embodiment of the present invention includes:

the artificial flower mechanism is arranged in the house and comprises a single-rod flowering branch and a plurality of petals, and the petals are uniformly distributed on the single-rod flowering branch;

the component identification equipment is connected with the distortion adjusting equipment and used for acquiring each R component value of each pixel point in the real-time adjusting image, sequencing the R component values from large to small, and outputting the R component value with the central sequence number as a reference component value;

the brightness degree identification device is an SOC chip, is connected with the component identification device and is used for determining the corresponding room environment brightness degree based on the reference component value, wherein the larger the reference component value is, the higher the determined room environment brightness degree is;

the automatic blooming device comprises a driving motor, is used for controlling the opening degree of each petal of the false flower mechanism and is connected with the gorgeous degree identification device, so that the higher the gorgeous degree of the house environment is, the larger the opening degree of each petal of the false flower mechanism is;

the wired acquisition equipment is arranged in the house and used for carrying out field image data acquisition on the scene inside the house so as to obtain and output a corresponding house internal image;

the parameter identification device is connected with the wired acquisition device and used for receiving the house internal image and identifying the frame rate of the image sequence in which the house internal image is positioned so as to obtain and output a corresponding real-time frame rate;

the signal sending equipment is connected with the parameter identification equipment and used for receiving the real-time frame rate and sending a first trigger command when the real-time frame rate exceeds a preset frame rate threshold value;

the signal sending equipment is further used for sending a second trigger command when the real-time frame rate is lower than or equal to the preset frame rate threshold;

the power supply control equipment is connected with the signal sending equipment and used for recovering power supply to the wiener filtering equipment, the homomorphic filtering equipment and the median filtering equipment when receiving a first trigger command;

the power supply control equipment is used for stopping power supply to the wiener filtering equipment, the homomorphic filtering equipment and the median filtering equipment when receiving a second trigger command;

the wiener filtering equipment is used for receiving the house internal image and executing wiener filtering processing on a red component sub-image formed by red components of each pixel point in the house internal image so as to obtain a red filtering image;

the homomorphic filtering equipment is used for receiving the house internal image and executing homomorphic filtering processing on a green component sub-image formed by green components of each pixel point in the house internal image so as to obtain a green filtering image;

the median filtering device is used for receiving the house internal image and executing median filtering processing on a blue component sub-image formed by blue components of each pixel point in the house internal image to obtain a blue filtering image;

the merging processing device is respectively connected with the wiener filtering device, the homomorphic filtering device and the median filtering device, and is used for merging the red filtering image, the green filtering image and the blue filtering image to obtain a merged image;

the distortion adjusting device is connected with the merging processing device and is used for executing distortion adjusting processing on the merged processed image to obtain a real-time adjusted image;

the wiener filtering device, the homomorphic filtering device, the median filtering device and the merging processing device are respectively realized by different models of PAL devices;

wherein the wiener filtering device, the homomorphic filtering device, the median filtering device, and the merge processing device are integrated on the same printed circuit board.

Next, the detailed configuration of the environmental analysis-based plant control system of the present invention will be further described.

The environmental analysis-based equipment control system can further comprise:

and the optical fiber communication interface is connected with the merging processing equipment and used for receiving and sending the red filtering image, the green filtering image and the blue filtering image through an optical fiber communication link.

The environmental analysis-based equipment control system can further comprise:

and the radiation protection starting equipment is respectively connected with the radiation analysis equipment and the radiation shielding plate and used for lifting the radiation shielding plate to realize the electromagnetic shielding operation of the integrated circuit board when the whole radiation quantity of the received circuit board exceeds a limited quantity.

The environmental analysis-based equipment control system can further comprise:

the electromagnetic radiation induction units are respectively arranged inside the gorgeous degree identification equipment, the arrangement shapes of the electromagnetic radiation induction units inside the gorgeous degree identification equipment are matched with the appearance of the gorgeous degree identification equipment, and each electromagnetic radiation induction unit is used for inducing the electromagnetic radiation quantity at the position where the electromagnetic radiation induction unit is located to serve as the current electromagnetic radiation quantity to be output.

The environmental analysis-based equipment control system can further comprise:

the pressure detection units are respectively arranged on the integrated circuit board where the gorgeous degree identification equipment is located, the arrangement shapes of the pressure detection units on the integrated circuit board are W-shaped, and each pressure detection unit is used for detecting the pressure value at the position of the integrated circuit board where the pressure detection unit is located to serve as the current pressure value to be output.

The environmental analysis-based equipment control system can further comprise:

and the radiation analysis equipment is arranged on the integrated circuit board, is respectively connected with the plurality of electromagnetic radiation induction units, and is used for receiving a plurality of current electromagnetic radiation quantities respectively output by the plurality of electromagnetic radiation induction units and executing weighted average operation on the plurality of current electromagnetic radiation quantities to obtain the whole radiation quantity of the circuit board.

The environmental analysis-based equipment control system can further comprise:

and the pressure identification equipment is arranged on the integrated circuit board, is respectively connected with the pressure detection units, is used for receiving a plurality of current pressure values respectively output by the pressure detection units, and performs mean value operation on the current pressure values to obtain a circuit board pressure value.

In the environmental analysis-based equipment control system:

the arrangement shape of the plurality of electromagnetic radiation induction units in the interior of the gorgeous degree identification device is matched with the appearance of the gorgeous degree identification device, and the arrangement shape comprises the following steps: and arranging a corresponding electromagnetic radiation induction unit at each vertex position of the appearance of the gorgeous degree identification equipment.

In the environmental analysis-based equipment control system:

in the radiation analysis device, receiving a plurality of current electromagnetic radiation quantities respectively output by the plurality of electromagnetic radiation induction units, and performing a weighted average operation on the plurality of current electromagnetic radiation quantities to obtain an overall radiation quantity of a circuit board includes: the closer the electromagnetic radiation induction unit is to the inner center of the gorgeous degree identification device, the larger the weight value corresponding to the electromagnetic radiation induction unit is when the electromagnetic radiation induction unit participates in weighted average calculation.

In addition, the optical fiber is a short term for optical fiber, and is a fiber made of glass or plastic, which can be used as a light transmission means. The principle of transmission is 'total reflection of light'. The fine optical fiber is enclosed in a plastic sheath so that it can be bent without breaking. Generally, a Light Emitting Diode (LED) or a laser beam is used as a transmitter at one end of the optical fiber to transmit an optical pulse to the optical fiber, and a photosensor is used as a receiver at the other end of the optical fiber to detect the pulse.

In the multimode optical fiber, the core diameter is 50 μm and 62.5 μm, which are approximately equivalent to the thickness of human hair. Whereas the diameter of the single-mode optical fiber core is 8 μm to 10 μm, 9/125 μm is generally used. The core is surrounded by a glass envelope, commonly referred to as a cladding, of lower refractive index than the core, which keeps the light rays within the core. Further on the outside is a thin plastic outer jacket, i.e. a coating, for protecting the cladding. The optical fibers are typically bundled and protected by an outer jacket. The core is usually a double-walled concentric cylinder of silica glass with a small cross-sectional area, which is brittle and easily broken, and therefore requires the addition of a protective layer.

It should be understood that portions of the present invention may be implemented in hardware, software, firmware, or a combination thereof. In the above embodiments, the various steps or methods may be implemented in software or firmware stored in memory and executed by a suitable instruction execution system. For example, if implemented in hardware, as in another embodiment, any one or combination of the following techniques, which are known in the art, may be used: a discrete logic circuit having a logic gate circuit for implementing a logic function on a data signal, an application specific integrated circuit having an appropriate combinational logic gate circuit, a Programmable Gate Array (PGA), a Field Programmable Gate Array (FPGA), or the like.

It will be understood by those skilled in the art that all or part of the steps carried by the method for implementing the above embodiments may be implemented by hardware related to instructions of a program, which may be stored in a computer readable storage medium, and when the program is executed, the program includes one or a combination of the steps of the method embodiments.

The storage medium mentioned above may be a read-only memory, a magnetic or optical disk, etc. Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (6)

1. An environmental analysis-based equipment control system, comprising:

the artificial flower mechanism is arranged in the house and comprises a single-rod flowering branch and a plurality of petals, and the petals are uniformly distributed on the single-rod flowering branch;

the component identification equipment is connected with the distortion adjusting equipment and used for acquiring each R component value of each pixel point in the real-time adjusting image, sequencing the R component values from large to small, and outputting the R component value with the central sequence number as a reference component value;

the brightness degree identification device is an SOC chip, is connected with the component identification device and is used for determining the corresponding room environment brightness degree based on the reference component value, wherein the larger the reference component value is, the higher the determined room environment brightness degree is;

the automatic blooming device comprises a driving motor, is used for controlling the opening degree of each petal of the false flower mechanism and is connected with the gorgeous degree identification device, so that the higher the gorgeous degree of the house environment is, the larger the opening degree of each petal of the false flower mechanism is;

the wired acquisition equipment is arranged in the house and used for carrying out field image data acquisition on the scene inside the house so as to obtain and output a corresponding house internal image;

the parameter identification device is connected with the wired acquisition device and used for receiving the house internal image and identifying the frame rate of the image sequence in which the house internal image is positioned so as to obtain and output a corresponding real-time frame rate;

the signal sending equipment is connected with the parameter identification equipment and used for receiving the real-time frame rate and sending a first trigger command when the real-time frame rate exceeds a preset frame rate threshold value;

the signal sending equipment is further used for sending a second trigger command when the real-time frame rate is lower than or equal to the preset frame rate threshold;

the power supply control equipment is connected with the signal sending equipment and used for recovering power supply to the wiener filtering equipment, the homomorphic filtering equipment and the median filtering equipment when receiving a first trigger command;

the power supply control equipment is used for stopping power supply to the wiener filtering equipment, the homomorphic filtering equipment and the median filtering equipment when receiving a second trigger command;

the wiener filtering equipment is used for receiving the house internal image and executing wiener filtering processing on a red component sub-image formed by red components of each pixel point in the house internal image so as to obtain a red filtering image;

the homomorphic filtering equipment is used for receiving the house internal image and executing homomorphic filtering processing on a green component sub-image formed by green components of each pixel point in the house internal image so as to obtain a green filtering image;

the median filtering device is used for receiving the house internal image and executing median filtering processing on a blue component sub-image formed by blue components of each pixel point in the house internal image to obtain a blue filtering image;

the merging processing device is respectively connected with the wiener filtering device, the homomorphic filtering device and the median filtering device, and is used for merging the red filtering image, the green filtering image and the blue filtering image to obtain a merged image;

the distortion adjusting device is connected with the merging processing device and is used for executing distortion adjusting processing on the merged processed image to obtain a real-time adjusted image;

the wiener filtering device, the homomorphic filtering device, the median filtering device and the merging processing device are respectively realized by different models of PAL devices;

wherein the wiener filtering device, the homomorphic filtering device, the median filtering device, and the merge processing device are integrated on the same printed circuit board;

the optical fiber communication interface is connected with the merging processing equipment and is used for receiving and sending the red filtering image, the green filtering image and the blue filtering image through an optical fiber communication link;

the radiation protection starting equipment is respectively connected with the radiation analysis equipment and the radiation shielding plate and is used for lifting the radiation shielding plate to realize electromagnetic shielding operation on the integrated circuit board when the whole radiation quantity of the received integrated circuit board exceeds a limited quantity;

the electromagnetic radiation induction units are respectively arranged inside the gorgeous degree identification equipment, the arrangement shapes of the electromagnetic radiation induction units inside the gorgeous degree identification equipment are matched with the appearance of the gorgeous degree identification equipment, and each electromagnetic radiation induction unit is used for inducing the electromagnetic radiation quantity at the position where the electromagnetic radiation induction unit is located to serve as the current electromagnetic radiation quantity to be output.

2. The environmental analysis-based equipment control system of claim 1, wherein the system further comprises:

the pressure detection units are respectively arranged on the integrated circuit board where the gorgeous degree identification equipment is located, the arrangement shapes of the pressure detection units on the integrated circuit board are W-shaped, and each pressure detection unit is used for detecting the pressure value at the position of the integrated circuit board where the pressure detection unit is located to serve as the current pressure value to be output.

3. The environmental analysis-based equipment control system of claim 1, wherein the system further comprises:

and the radiation analysis equipment is arranged on the integrated circuit board, is respectively connected with the plurality of electromagnetic radiation induction units, and is used for receiving a plurality of current electromagnetic radiation quantities respectively output by the plurality of electromagnetic radiation induction units and executing weighted average operation on the plurality of current electromagnetic radiation quantities to obtain the whole radiation quantity of the circuit board.

4. The environmental analysis-based equipment control system of claim 1, wherein the system further comprises:

and the pressure identification equipment is arranged on the integrated circuit board, is respectively connected with the pressure detection units, is used for receiving a plurality of current pressure values respectively output by the pressure detection units, and performs mean value operation on the current pressure values to obtain a circuit board pressure value.

5. The environmental analysis-based equipment control system of claim 1, wherein:

the arrangement shape of the plurality of electromagnetic radiation induction units in the interior of the gorgeous degree identification device is matched with the appearance of the gorgeous degree identification device, and the arrangement shape comprises the following steps: and arranging a corresponding electromagnetic radiation induction unit at each vertex position of the appearance of the gorgeous degree identification equipment.

6. The environmental analysis-based equipment control system of claim 1, wherein:

in the radiation analysis device, receiving a plurality of current electromagnetic radiation quantities respectively output by the plurality of electromagnetic radiation induction units, and performing a weighted average operation on the plurality of current electromagnetic radiation quantities to obtain an overall radiation quantity of a circuit board includes: the closer the electromagnetic radiation induction unit is to the inner center of the gorgeous degree identification device, the larger the weight value corresponding to the electromagnetic radiation induction unit is when the electromagnetic radiation induction unit participates in weighted average calculation.