CN112949787A - Display driving platform based on content acquisition - Google Patents

Abstract

The invention relates to a display driving platform based on content acquisition, which comprises: the first identifying device is used for matching the received image with the jade color features, outputting a matching area as a target area when the matching is successful, and directly sending an identifying failure command when the matching is failed; the second identification device is used for matching the target region with the jade appearance characteristics when the target region is received, outputting the matched region as a reference region when the matching is successful, and sending an identification failure command when the matching is failed; and the second identification device is also used for sending an identification success command when the target area is successfully matched with the jade appearance characteristics. The display driving platform based on content acquisition has reliable data and is convenient to carry. The intelligent identification of the jade target in the current ore deposit is realized by adopting a handheld terminal mode, so that the original manual identification mode or a complex machine identification mode is replaced.

Description

Display driving platform based on content acquisition

Technical Field

The invention relates to the field of mining equipment, in particular to a display driving platform based on content acquisition.

Background

Mining is the technology and science of mining mineral resources from within the crust and the surface. Mining in its broadest sense also includes the production of coal and oil. The mining industry is an important raw material industry, metal ores are the main raw materials of the smelting industry, and non-metal ores are important chemical raw materials and building materials.

In the basic principle of underground mining of metal deposits, it has been stated that: in underground mining of metal deposits, the field must be divided into stages (or panels) and then stages (or panels) must be divided into blocks (or panels). The nuggets are the basic units of extraction.

The mining method should be defined as: the mining method is a mining method for researching ores in ore blocks, is an organic combination of mining preparation, cutting and stoping in space and time, and is a general term of mining preparation, cutting and stoping.

By mining method is meant a method of extracting ore from a block (or panel). It includes three works of mining preparation, cutting and stoping. The mining preparation work is arranged according to the size of the ore block constituent elements, and the problems of pedestrians, ore transportation, equipment material transportation, ventilation, communication and the like are solved for ore block mining; cutting creates necessary free surface and ore falling space for stoping; after the two works are finished, large-area recovery is directly carried out. The three operations are all carried out in a certain time and space, are connected and are organically matched in sequence in time and space, and the operation is generally called a mining method.

The concept of mining methods is different from stoping methods. In the mining method, the concrete processes of three main operations of ore falling, ore transportation and ground pressure management and the matching relationship between the three operations in time and space are called as a stoping method. The mining technical conditions are different, and the stoping method is also different. The mining technical conditions of the ore blocks play a decisive role in which stoping process is adopted, so that the stoping method essentially becomes the core content of the mining method, and the essential characteristics of the mining method are reflected by the stoping method. Mining methods are generally named for it and by it the accuracy of the block, the method of cutting and the specific placement of the cutting roadways of the accuracy are determined.

In the mining method, the ore block is often divided into a room and a pillar for two-step mining, the room is mined firstly, then the pillar is mined, and the mining space is supported by the surrounding pillars during mining. When the conditions are favorable, the ore block can be not divided into an ore room and an ore pillar, and the stoping work is continuously and comprehensively pushed along the whole trend or along the inclination (reverse inclination), so that the full-face stoping mining method is formed.

Disclosure of Invention

In order to solve the technical problems in the related field, the invention provides a display driving platform based on content acquisition, which can effectively distinguish the existence of jade through an intelligent and non-contact type ore deposit scanning mechanism, thereby solving the problems of complex jade detection,

Therefore, the invention has at least the following two key points:

(1) identifying whether a jade target exists in a currently scanned ore deposit by adopting a multi-layer identification mechanism of matching jade color features and matching jade appearance features;

(2) the jade identification mechanism is transplanted to the handheld detector, and the red color of the identified jade area is highlighted, so that the operation and the identification of a user are facilitated.

According to an aspect of the present invention, there is provided a display driving platform based on content acquisition, the platform comprising:

the display driving equipment is arranged on the handheld detector and used for receiving a reference area and carrying out red highlighting processing on an area corresponding to the reference area in the mining site image;

the liquid crystal display screen is connected with the display driving equipment and is used for displaying the mining site image subjected to red highlighting;

the miniature capturing equipment is arranged on the handheld detector and used for carrying out image data capturing operation on the jade mining area so as to obtain a mining site image;

a color correction device connected to the miniature capture device for performing color correction processing on the received mine site image to obtain a color corrected image;

a histogram equalization device connected to the color correction device for performing a histogram equalization process on the received color corrected image to obtain a corresponding histogram equalized image;

the filter processing device is connected with the histogram equalization device and used for carrying out sharpening action based on Smart Sharpen filter processing on the received histogram equalization image so as to obtain and output a corresponding filter processing image;

the first identifying device is connected with the filter processing device and used for receiving the filter processing image, matching the filter processing image with the jade color feature, outputting a matching area as a target area when the matching is successful, and directly sending an identifying failure command when the matching is failed;

the second identification device is connected with the first identification device and used for matching the target region with the jade appearance characteristics when the target region is received, outputting the matched region as a reference region when the matching is successful, and sending an identification failure command when the matching is failed;

the second identification device is further used for sending an identification success command when the target area is successfully matched with the jade appearance characteristics;

wherein the first authentication device, the second authentication device and the filter processing device are all disposed within a hand-held test meter.

According to another aspect of the invention, a display driving method based on content acquisition is further provided, and the method comprises the step of using a display driving platform based on content acquisition as described above for identifying whether jade exists in a current ore deposit by adopting a multi-level jade identification mechanism.

The display driving platform based on content acquisition has reliable data and is convenient to carry. The intelligent identification of the jade target in the current ore deposit is realized by adopting a handheld terminal mode, so that the original manual identification mode or a complex machine identification mode is replaced.

Detailed Description

Embodiments of the content capture based display driver platform of the present invention will be described in detail below.

China is the earliest and most widespread country in the world for the exploitation and use of jade. The ancient books are recorded with a lot of records and also have miscellaneous names, such as water jade, left jade, pendant jade, fragrant jade, nephrite and the like. The jade blocks of the tremolite nephrite from the sea site of the Shanghai province of Fuxin Liaoning are about 8000 years (early in the New Stone times) as far as the earliest real jade ware known all over the world. The most famous jade in China is Xinjiang Hetian jade, which is called four famous jade in China with Dushan jade in Henan, Xiuyan jade in Liaoning, Lantian jade in Shanxi.

Jade is a relatively expensive one of the minerals. The jade is rich in various trace elements, such as zinc, iron, copper, manganese, magnesium, cobalt, selenium, chromium, titanium, lithium, calcium, potassium, sodium, etc. The jade value is not completely dependent on the components, and most of jade is not worth.

At present, because the jade distinguishing difficulty is high and the precious property of the jade is high, the detection accuracy is low or the detection efficiency is low in the detection of the jade existence of the current ore deposit or through an original manual identification mode or a complicated machine identification mode, and the requirement of an ore cutting party on the scanning of the large-area ore deposit cannot be met.

In order to overcome the defects, the invention builds a display driving platform based on content acquisition, and can effectively solve the corresponding technical problem.

The display driving platform based on content acquisition according to the embodiment of the invention comprises:

the display driving equipment is arranged on the handheld detector and used for receiving a reference area and carrying out red highlighting processing on an area corresponding to the reference area in the mining site image;

the liquid crystal display screen is connected with the display driving equipment and is used for displaying the mining site image subjected to red highlighting;

the miniature capturing equipment is arranged on the handheld detector and used for carrying out image data capturing operation on the jade mining area so as to obtain a mining site image;

a color correction device connected to the miniature capture device for performing color correction processing on the received mine site image to obtain a color corrected image;

a histogram equalization device connected to the color correction device for performing a histogram equalization process on the received color corrected image to obtain a corresponding histogram equalized image;

the filter processing device is connected with the histogram equalization device and used for carrying out sharpening action based on Smart Sharpen filter processing on the received histogram equalization image so as to obtain and output a corresponding filter processing image;

the first identifying device is connected with the filter processing device and used for receiving the filter processing image, matching the filter processing image with the jade color feature, outputting a matching area as a target area when the matching is successful, and directly sending an identifying failure command when the matching is failed;

the second identification device is connected with the first identification device and used for matching the target region with the jade appearance characteristics when the target region is received, outputting the matched region as a reference region when the matching is successful, and sending an identification failure command when the matching is failed;

the second identification device is further used for sending an identification success command when the target area is successfully matched with the jade appearance characteristics;

wherein the first authentication device, the second authentication device and the filter processing device are all disposed within a hand-held test meter.

Next, the detailed structure of the display driving platform based on content acquisition according to the present invention will be further described.

The display driving platform based on content acquisition can further comprise:

and the humidity measuring equipment is arranged on the shell of the color correction equipment and is used for measuring the humidity on the position of the shell of the color correction equipment.

The display driving platform based on content acquisition can further comprise:

and the instant humidifying equipment is connected with the humidity measuring equipment and used for realizing corresponding humidifying action based on the received humidity.

In the display driving platform based on content acquisition:

the filter processing device, the color correction device and the histogram equalization device share the same user control interface, and the user control interface is realized by an SOC chip.

In the display driving platform based on content acquisition:

and a counter is arranged in the filter processing equipment and is used for accumulating the operation times of the addition level of the filter processing equipment in real time.

The display driving platform based on content acquisition can further comprise:

and the metal radiating fin is arranged near the histogram equalization equipment, is used for being connected with the shell of the histogram equalization equipment and is used for realizing the heat radiation treatment of the histogram equalization equipment.

In the display driving platform based on content acquisition:

the color correction device, the histogram equalization device, and the filter processing device share the same parameter configuration interface.

The display driving platform based on content acquisition can further comprise:

and the touch screen is used for receiving input information of the user according to the operation of the user.

In the display driving platform based on content acquisition:

the parameter configuration interface is one of an IIC control interface, a serial control interface or a parallel control interface.

Meanwhile, in order to overcome the defects, the invention also builds a display driving method based on content acquisition, and the method comprises the step of using the display driving platform based on content acquisition and used for identifying whether jade exists in the current ore deposit by adopting a multi-level jade identification mechanism.

In addition, the System on Chip is called SOC for short, i.e. System on Chip. From a narrow sense, the system is the chip integration of the core of an information system, and key components of the system are integrated on one chip; in a broad sense, an SOC is a micro-miniature system, and if a Central Processing Unit (CPU) is the brain, the SOC is a system including the brain, heart, eyes, and hands. The academia at home and abroad generally tends to define the SOC as integrating a microprocessor, an analog IP core, a digital IP core and a memory (or off-chip memory control interface) on a single chip, which is usually custom-made or standard product oriented to a specific application.

The basic content of the SOC definition is mainly two-fold: one is his composition and the other is his forming process. The system-level chip can be composed of a system-level chip control logic module, a microprocessor/microcontroller CPU core module, a digital signal processor DSP module, an embedded memory module, an interface module for communicating with the outside, an analog front-end module containing ADC/DAC, a power supply and power consumption management module, a radio frequency front-end module, user defined logic (which can be realized by FPGA or ASIC) and a micro-electro-mechanical module for a wireless SOC, and more importantly, a SOC chip is embedded with a basic software (RDOS or COS and other application software) module or loadable user software and the like.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.

Although the present invention has been described with reference to the above embodiments, it should be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the spirit and scope of the invention. Therefore, the protection scope of the present invention should be subject to the scope defined by the claims of the present application.

Claims (10)

1. A content-capture-based display driver platform, the platform comprising:

the display driving equipment is arranged on the handheld detector and used for receiving a reference area and carrying out red highlighting processing on an area corresponding to the reference area in the mining site image;

the liquid crystal display screen is connected with the display driving equipment and is used for displaying the mining site image subjected to red highlighting;

the miniature capturing equipment is arranged on the handheld detector and used for carrying out image data capturing operation on the jade mining area so as to obtain a mining site image;

a color correction device connected to the miniature capture device for performing color correction processing on the received mine site image to obtain a color corrected image;

a histogram equalization device connected to the color correction device for performing a histogram equalization process on the received color corrected image to obtain a corresponding histogram equalized image;

the filter processing device is connected with the histogram equalization device and used for carrying out sharpening action based on Smart Sharpen filter processing on the received histogram equalization image so as to obtain and output a corresponding filter processing image;

the first identifying device is connected with the filter processing device and used for receiving the filter processing image, matching the filter processing image with the jade color feature, outputting a matching area as a target area when the matching is successful, and directly sending an identifying failure command when the matching is failed;

the second identification device is connected with the first identification device and used for matching the target region with the jade appearance characteristics when the target region is received, outputting the matched region as a reference region when the matching is successful, and sending an identification failure command when the matching is failed;

the second identification device is further used for sending an identification success command when the target area is successfully matched with the jade appearance characteristics;

wherein the first authentication device, the second authentication device and the filter processing device are all disposed within a hand-held test meter.

2. The content capture based display driving platform of claim 1, further comprising:

and the humidity measuring equipment is arranged on the shell of the color correction equipment and is used for measuring the humidity on the position of the shell of the color correction equipment.

3. The content capture based display driving platform of claim 2, further comprising:

and the instant humidifying equipment is connected with the humidity measuring equipment and used for realizing corresponding humidifying action based on the received humidity.

4. The content capture based display driving platform of claim 3, wherein:

the filter processing device, the color correction device and the histogram equalization device share the same user control interface, and the user control interface is realized by an SOC chip.

5. The content capture based display driving platform of claim 4, wherein:

and a counter is arranged in the filter processing equipment and is used for accumulating the operation times of the addition level of the filter processing equipment in real time.

6. The content capture based display driving platform of claim 5, further comprising:

and the metal radiating fin is arranged near the histogram equalization equipment, is used for being connected with the shell of the histogram equalization equipment and is used for realizing the heat radiation treatment of the histogram equalization equipment.

7. The content capture based display driving platform of claim 6, wherein:

the color correction device, the histogram equalization device, and the filter processing device share the same parameter configuration interface.

8. The content capture based display driving platform of claim 7, wherein the platform further comprises:

and the touch screen is used for receiving input information of the user according to the operation of the user.

9. The content capture based display driving platform of claim 8, wherein:

the parameter configuration interface is one of an IIC control interface, a serial control interface or a parallel control interface.

10. A display driving method based on content acquisition, the method comprising providing a display driving platform based on content acquisition according to any one of claims 1 to 9 for identifying whether jade exists in a current deposit by using a multi-level jade identification mechanism.