CN111726567A - Electronic equipment gear management platform - Google Patents

Abstract

The invention relates to a gear management platform of electronic equipment, which comprises: the monitoring camera equipment is arranged above the basketball court and used for executing camera shooting actions facing the basketball court to obtain corresponding monitoring acquisition images; the on-site humidifying equipment is arranged near the monitoring camera equipment and used for adjusting a humidifying gear based on the received maximum reference area so as to realize on-site humidifying of the area where the basketball court is located; in the field humidifying device, adjusting the humidification stage based on receiving the maximum reference area includes: the larger the maximum reference area, the higher the humidification gear is adjusted. The electronic equipment gear management platform is compact in structure and reliable in logic. The on-site humidification gear is adjusted based on the actual area of the on-site maximum catkin target, so that the on-site humidification of the area where the basketball court is located is achieved, and the number of floating catkins in the area where the basketball court is located is rapidly reduced.

Description

Electronic equipment gear management platform

Technical Field

The invention relates to the field of electronic products, in particular to a gear management platform of electronic equipment.

Background

Consumer electronic products have different connotations in countries with different development levels and different connotations in different development stages of the same country, and the consumer electronic products in China are audio and video products related to broadcasting, television and communication and used for individuals and families, and mainly comprise: television, video disc player (VCD, SVCD, DVD), video recorder, camcorder, radio cassette recorder, audio component, compact disc player (CD), computer, game machine, mobile communication product, etc.

In developed countries, telephones, personal computers, home office equipment, home electronics, automotive electronics, etc. are also classified as consumer electronics. With the development of technology and the emergence of new applications of new products, products such as digital cameras, mobile phones, PDAs and the like are also emerging consumer electronics products. From the late nineties of the twentieth century, information appliances which integrate three fields of computers, information and communication, consumer electronics have been widely penetrated into family life, have the functions of audio-visual, information processing, bidirectional network communication and the like, and are composed of an embedded processor, related supporting hardware (such as a display card, a storage medium, an IC card or a reading device of a credit card), an embedded operating system and a software package of an application layer. In a broad sense, the information appliance includes all home appliances capable of interacting information through a network system, such as a PC, a set-top box, an HPC, a DVD, an ultra VCD, a wireless data communication device, a video game device, a WEBTV, and the like. Audio, video and communication equipment are the main components of information appliances. Refrigerators, washing machines, microwave ovens, etc. will also be developed into information appliances in the long run and constitute components of intelligent appliances.

Disclosure of Invention

The invention has at least the following three important points:

(1) adjusting a humidification gear based on the actual area of the received maximum catkin target to realize on-site humidification of the area of the basketball court, thereby quickly reducing the number of floating catkins in the area of the basketball court;

(2) calculating the actual area of the maximum catkin target based on the imaging height of the monitoring camera mechanism, the number of pixel points occupied by the catkin area with the maximum area in the image and the reference depth of field of the catkin area;

(3) a targeted image processing link is introduced into the monitoring camera mechanism so as to improve the quality of an output image of the monitoring camera mechanism and avoid excessive subsequent image processing components.

According to an aspect of the present invention, there is provided an electronic device gear management platform, including:

the monitoring camera equipment is arranged above the basketball court and used for executing camera shooting actions facing the basketball court to obtain corresponding monitoring acquisition images;

the on-site humidifying equipment is arranged near the monitoring camera equipment and used for adjusting a humidifying gear based on the received maximum reference area so as to realize on-site humidifying of the area where the basketball court is located;

in the field humidifying device, adjusting the humidification stage based on receiving the maximum reference area includes: the larger the maximum reference area is, the higher the adjusted humidification gear is;

the monitoring camera shooting mechanism comprises full-color camera shooting equipment, image restoration equipment, salt and pepper filtering equipment, trap filtering equipment and bicubic interpolation equipment, wherein the full-color camera shooting equipment is used for executing camera shooting action on a scene in the visual field of the full-color camera shooting equipment so as to obtain a corresponding visual field range image;

the image restoration device is connected with the full-color camera device and used for executing image restoration action on the received view range image to obtain a corresponding instant restoration image;

the salt and pepper filtering equipment is connected with the image restoration equipment and is used for executing median filtering processing on the received instant restoration image so as to remove salt and pepper noise in the instant restoration image and obtain a corresponding salt and pepper filtered image;

the trap filtering device is connected with the salt and pepper filtering device and used for executing trap filtering processing on the received salt and pepper filtered image to obtain a corresponding trap filtering image;

the bicubic interpolation device is connected with the trap filtering device and is used for performing bicubic interpolation processing of 6 x 6 pixel neighborhoods on the received trap filtering image so as to obtain a corresponding neighborhood interpolation image.

The electronic equipment gear management platform is compact in structure and reliable in logic. The on-site humidification gear is adjusted based on the actual area of the on-site maximum catkin target, so that the on-site humidification of the area where the basketball court is located is achieved, and the number of floating catkins in the area where the basketball court is located is rapidly reduced.

Drawings

Embodiments of the invention will now be described with reference to the accompanying drawings, in which:

fig. 1 is a schematic external view of a monitoring camera apparatus of an electronic apparatus shift management platform according to an embodiment of the present invention.

Detailed Description

Embodiments of the electronic device gear management platform of the present invention will be described in detail below with reference to the accompanying drawings.

A humidifier is a household appliance that increases the humidity of a room. The humidifier can humidify a designated room, and can also be connected with a boiler or a central air-conditioning system to humidify the whole building.

The development of the humidifier industry in China has a history of nearly 20 years, and through years of air quality concept popularization, product research and development and market cultivation, the function and the function of the humidifier, a relatively strange small household appliance product, are gradually accepted.

The humidifier is a household appliance capable of increasing the room humidity, can humidify a designated room, and can also be connected with a boiler or a central air-conditioning system to humidify the whole building. According to the heat and moisture exchange theory, the humidifier is divided into the following two types in the practical engineering: 1. an isenthalpic humidifier: namely, the sensible heat of air is absorbed by water to carry out evaporation and humidification, and the change of the sensible heat and the humidity on an enthalpy and humidity diagram is approximate isenthalpic process. 2. An isothermal humidifier: namely, liquid water is converted into steam by utilizing heat energy to be mixed with air for humidification, and the change of the liquid water on an enthalpy and humidity graph is approximately isothermal process.

At present, basketball court is the important place that people took exercise, and most basketball court is all outdoor, though can guarantee that the sportsman can breathe the fresh air of latest when the motion, improves and temper the effect, nevertheless also receives outdoor environment's influence, for example dust, haze, catkin etc. and how to reduce above-mentioned influence is one of the difficult problem that needs to solve at present.

In order to overcome the defects, the invention builds the electronic equipment gear management platform and can effectively solve the corresponding technical problems.

The electronic equipment gear management platform according to the embodiment of the invention comprises:

the monitoring camera equipment is arranged above the basketball court as shown in the figure 1 and is used for executing camera shooting actions facing the basketball court to obtain corresponding monitoring acquisition images;

the on-site humidifying equipment is arranged near the monitoring camera equipment and used for adjusting a humidifying gear based on the received maximum reference area so as to realize on-site humidifying of the area where the basketball court is located;

in the field humidifying device, adjusting the humidification stage based on receiving the maximum reference area includes: the larger the maximum reference area is, the higher the adjusted humidification gear is;

the monitoring camera shooting mechanism comprises full-color camera shooting equipment, image restoration equipment, salt and pepper filtering equipment, trap filtering equipment and bicubic interpolation equipment, wherein the full-color camera shooting equipment is used for executing camera shooting action on a scene in the visual field of the full-color camera shooting equipment so as to obtain a corresponding visual field range image;

the image restoration device is connected with the full-color camera device and used for executing image restoration action on the received view range image to obtain a corresponding instant restoration image;

the salt and pepper filtering equipment is connected with the image restoration equipment and is used for executing median filtering processing on the received instant restoration image so as to remove salt and pepper noise in the instant restoration image and obtain a corresponding salt and pepper filtered image;

the trap filtering device is connected with the salt and pepper filtering device and used for executing trap filtering processing on the received salt and pepper filtered image to obtain a corresponding trap filtering image;

the bicubic interpolation equipment is connected with the trap filtering equipment and is used for performing bicubic interpolation processing of 6 x 6 pixel neighborhoods on the received trap filtering image to obtain a corresponding neighborhood interpolation image;

the FPM DRAM chip is connected with the salt and pepper filtering equipment and the trap filtering equipment and used for temporarily storing the salt and pepper filtering images and the trap filtering images;

the depth-of-field extraction device is connected with the bicubic interpolation device and is used for enabling pixel points with gray values falling within a preset catkin gray value range in the neighborhood interpolation image to serve as catkin pixel points, enabling all catkin pixel points in the neighborhood interpolation image to be fitted into more than one catkin area, and enabling the depth of field of a catkin target corresponding to the catkin area with the largest area in the neighborhood interpolation image to serve as reference depth of field to be output;

the area identification device is respectively connected with the field humidifying device and the field depth extraction device and is used for calculating the actual area of the catkin target corresponding to the catkin region with the largest area based on the imaging height of the monitoring camera mechanism, the reference field depth and the number of pixels occupied by the catkin region with the largest area in the neighborhood interpolation image so as to serve as the largest reference area to be output;

the monitoring camera mechanism outputs the neighborhood interpolation image, and the monitoring camera mechanism further comprises timing equipment for timing the output time of the neighborhood interpolation image.

Next, a detailed description of the electronic device gear management platform according to the present invention will be further described.

In the electronic device gear management platform, the method further comprises:

and the Gaussian filtering device is connected with the bicubic interpolation device and used for receiving the neighborhood interpolation image and executing Gaussian filtering processing on the neighborhood interpolation image to obtain and output a corresponding Gaussian filtering image.

In the electronic device gear management platform, the method further comprises:

and the primary interpolation equipment is connected with the Gaussian filtering equipment and used for receiving the Gaussian filtering image and executing natural adjacent point interpolation processing on the Gaussian filtering image so as to obtain and output a corresponding primary interpolation image.

In the electronic device gear management platform, the method further comprises:

and the contrast identification device is connected with the primary interpolation device and used for acquiring the contrast of the Gaussian filtered image to be used as a first contrast, and also used for acquiring the contrast of the primary interpolation image to be used as a second contrast, and dividing the second contrast by the first contrast to obtain a reference proportion.

In the electronic device gear management platform, the method further comprises:

and the secondary interpolation device is connected with the contrast recognition device and used for executing minimum curvature interpolation processing on the primary interpolation image when the received reference proportion is less than or equal to a preset proportion threshold value so as to obtain and output a corresponding secondary interpolation image.

In the electronic device gear management platform:

and the re-interpolation device is also used for outputting the primary interpolation image as a re-interpolation image when the received reference proportion is larger than the preset proportion threshold value.

In the electronic device gear management platform, the method further comprises:

and the DDR memory chip is respectively connected with the contrast identification device and the re-interpolation device and is used for storing the preset proportion threshold value.

In the electronic device gear management platform, the method further comprises:

and the geometric correction device is respectively connected with the depth-of-field extraction device and the re-interpolation device and is used for receiving the re-interpolation image, executing geometric correction processing on the re-interpolation image to obtain a corresponding real-time correction image and sending the real-time correction image to the depth-of-field extraction device in place of the neighborhood interpolation image.

In the electronic device gear management platform:

the contrast identification device comprises an image receiving unit, a contrast operation unit, a proportion obtaining unit and a proportion output unit;

wherein, in the contrast recognition apparatus, the image receiving unit is configured to receive the gaussian-filtered image and the primary interpolation image.

In the electronic device gear management platform:

in the contrast recognition apparatus, the contrast operation unit is connected to the image receiving unit, and is configured to acquire the contrast of the gaussian-filtered image as a first contrast and also acquire the contrast of the primary interpolation image as a second contrast.

Besides, strictly speaking, DDR shall be referred to as DDR SDRAM, which is a custom name, and some beginners also commonly see DDR SDRAM, which is regarded as SDRAM. DDR SDRAM, an acronym for Double Data Rate SDRAM, means Double-Data synchronous dynamic random access memory. DDR memory is developed on the basis of SDRAM memory, and SDRAM production system is still used, so for memory manufacturers, DDR memory production can be realized only by slightly improving equipment for manufacturing common SDRAM, and cost can be effectively reduced.

The SDRAM only transmits data once in a clock period, and the data transmission is carried out in the rising period of the clock; the DDR memory transfers data twice in one clock cycle, and can transfer data once in the rising period and the falling period of the clock, so the DDR memory is called a double-rate synchronous dynamic random access memory. DDR memory can achieve higher data transfer rates at the same bus frequency as SDRAM.

Compared with SDRAM: DDR uses a more advanced synchronous circuit, so that the main steps of transmission and output of the designated address and data are independently executed and are kept completely synchronous with the CPU; DDR uses DLL (Delay Locked Loop) technology, and when data is valid, the memory controller can use this data filter signal to pinpoint the data, output it every 16 times, and resynchronize the data from different memory modules. DDR essentially doubles the speed of SDRAM without increasing the clock frequency, allowing data to be read on both the rising and falling edges of the clock pulse, thus doubling the speed of standard SDRAM.

It is to be understood that while the present invention has been described in conjunction with the preferred embodiments thereof, it is not intended to limit the invention to those embodiments. It will be apparent to those skilled in the art from this disclosure that many changes and modifications can be made, or equivalents modified, in the embodiments of the invention without departing from the scope of the invention. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical essence of the present invention are still within the scope of the protection of the technical solution of the present invention, unless the contents of the technical solution of the present invention are departed.

Claims (10)

1. An electronic device gear management platform, comprising:

the monitoring camera equipment is arranged above the basketball court and used for executing camera shooting actions facing the basketball court to obtain corresponding monitoring acquisition images;

the on-site humidifying equipment is arranged near the monitoring camera equipment and used for adjusting a humidifying gear based on the received maximum reference area so as to realize on-site humidifying of the area where the basketball court is located;

in the field humidifying device, adjusting the humidification stage based on receiving the maximum reference area includes: the larger the maximum reference area is, the higher the adjusted humidification gear is;

the monitoring camera shooting mechanism comprises full-color camera shooting equipment, image restoration equipment, salt and pepper filtering equipment, trap filtering equipment and bicubic interpolation equipment, wherein the full-color camera shooting equipment is used for executing camera shooting action on a scene in the visual field of the full-color camera shooting equipment so as to obtain a corresponding visual field range image;

the image restoration device is connected with the full-color camera device and used for executing image restoration action on the received view range image to obtain a corresponding instant restoration image;

the salt and pepper filtering equipment is connected with the image restoration equipment and is used for executing median filtering processing on the received instant restoration image so as to remove salt and pepper noise in the instant restoration image and obtain a corresponding salt and pepper filtered image;

the trap filtering device is connected with the salt and pepper filtering device and used for executing trap filtering processing on the received salt and pepper filtered image to obtain a corresponding trap filtering image;

the bicubic interpolation equipment is connected with the trap filtering equipment and is used for performing bicubic interpolation processing of 6 x 6 pixel neighborhoods on the received trap filtering image to obtain a corresponding neighborhood interpolation image;

the FPM DRAM chip is connected with the salt and pepper filtering equipment and the trap filtering equipment and used for temporarily storing the salt and pepper filtering images and the trap filtering images;

the depth-of-field extraction device is connected with the bicubic interpolation device and is used for enabling pixel points with gray values falling within a preset catkin gray value range in the neighborhood interpolation image to serve as catkin pixel points, enabling all catkin pixel points in the neighborhood interpolation image to be fitted into more than one catkin area, and enabling the depth of field of a catkin target corresponding to the catkin area with the largest area in the neighborhood interpolation image to serve as reference depth of field to be output;

the area identification device is respectively connected with the field humidifying device and the field depth extraction device and is used for calculating the actual area of the catkin target corresponding to the catkin region with the largest area based on the imaging height of the monitoring camera mechanism, the reference field depth and the number of pixels occupied by the catkin region with the largest area in the neighborhood interpolation image so as to serve as the largest reference area to be output;

the monitoring camera mechanism outputs the neighborhood interpolation image, and the monitoring camera mechanism further comprises timing equipment for timing the output time of the neighborhood interpolation image.

2. The electronic device gear management platform of claim 1, wherein the platform further comprises:

and the Gaussian filtering device is connected with the bicubic interpolation device and used for receiving the neighborhood interpolation image and executing Gaussian filtering processing on the neighborhood interpolation image to obtain and output a corresponding Gaussian filtering image.

3. The electronic device gear management platform of claim 2, wherein the platform further comprises:

and the primary interpolation equipment is connected with the Gaussian filtering equipment and used for receiving the Gaussian filtering image and executing natural adjacent point interpolation processing on the Gaussian filtering image so as to obtain and output a corresponding primary interpolation image.

4. The electronic device gear management platform of claim 3, wherein the platform further comprises:

and the contrast identification device is connected with the primary interpolation device and used for acquiring the contrast of the Gaussian filtered image to be used as a first contrast, and also used for acquiring the contrast of the primary interpolation image to be used as a second contrast, and dividing the second contrast by the first contrast to obtain a reference proportion.

5. The electronic device gear management platform of claim 4, wherein the platform further comprises:

and the secondary interpolation device is connected with the contrast recognition device and used for executing minimum curvature interpolation processing on the primary interpolation image when the received reference proportion is less than or equal to a preset proportion threshold value so as to obtain and output a corresponding secondary interpolation image.

6. The electronic device gear management platform of claim 5, wherein:

and the re-interpolation device is also used for outputting the primary interpolation image as a re-interpolation image when the received reference proportion is larger than the preset proportion threshold value.

7. The electronic device gear management platform of claim 6, wherein the platform further comprises:

and the DDR memory chip is respectively connected with the contrast identification device and the re-interpolation device and is used for storing the preset proportion threshold value.

8. The electronic device gear management platform of claim 7, wherein the platform further comprises:

and the geometric correction device is respectively connected with the depth-of-field extraction device and the re-interpolation device and is used for receiving the re-interpolation image, executing geometric correction processing on the re-interpolation image to obtain a corresponding real-time correction image and sending the real-time correction image to the depth-of-field extraction device in place of the neighborhood interpolation image.

9. The electronic device gear management platform of claim 8, wherein:

the contrast identification device comprises an image receiving unit, a contrast operation unit, a proportion obtaining unit and a proportion output unit;

wherein, in the contrast recognition apparatus, the image receiving unit is configured to receive the gaussian-filtered image and the primary interpolation image.

10. The electronic device gear management platform of claim 9, wherein:

in the contrast recognition apparatus, the contrast operation unit is connected to the image receiving unit, and is configured to acquire the contrast of the gaussian-filtered image as a first contrast and also acquire the contrast of the primary interpolation image as a second contrast.

Images