CN111027357A - Data acquisition platform based on signal analysis - Google Patents
Data acquisition platform based on signal analysis Download PDFInfo
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- CN111027357A CN111027357A CN201910286081.9A CN201910286081A CN111027357A CN 111027357 A CN111027357 A CN 111027357A CN 201910286081 A CN201910286081 A CN 201910286081A CN 111027357 A CN111027357 A CN 111027357A
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06V—IMAGE OR VIDEO RECOGNITION OR UNDERSTANDING
- G06V20/00—Scenes; Scene-specific elements
- G06V20/35—Categorising the entire scene, e.g. birthday party or wedding scene
- G06V20/36—Indoor scenes
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06V—IMAGE OR VIDEO RECOGNITION OR UNDERSTANDING
- G06V10/00—Arrangements for image or video recognition or understanding
- G06V10/40—Extraction of image or video features
- G06V10/56—Extraction of image or video features relating to colour
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06V—IMAGE OR VIDEO RECOGNITION OR UNDERSTANDING
- G06V40/00—Recognition of biometric, human-related or animal-related patterns in image or video data
- G06V40/10—Human or animal bodies, e.g. vehicle occupants or pedestrians; Body parts, e.g. hands
- G06V40/103—Static body considered as a whole, e.g. static pedestrian or occupant recognition
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Abstract
The invention relates to a data acquisition platform based on signal analysis, comprising: the density extraction device is used for identifying one or more human body objects in the subsequent adjustment image based on the human body imaging characteristics, and calculating population distribution density in the bedroom based on the preset bedroom area and the number of the one or more human body objects; and the virtual masking degree analyzing device is connected with the density extracting device and is used for determining the virtual masking degree inversely proportional to the received population distribution density based on the received population distribution density. The data acquisition platform based on signal analysis is reliable in operation and wide in application. Since the population distribution density in the bedroom is calculated based on the preset bedroom area and the number of one or more human body objects obtained through the customized recognition processing, the virtual masking degree inversely proportional to the population distribution density is determined based on the received population distribution density, and therefore balance between the bedroom air fluency and privacy protection is achieved.
Description
Technical Field
The invention relates to the field of home management, in particular to a data acquisition platform based on signal analysis.
Background
In home management, home decoration mainly refers to materials, designs, colors, patterns, textures and methods of indoor wall surfaces, ground surfaces and ceilings. The indoor wall decoration has the functions of protecting the wall body, meeting the requirements of indoor use functions and providing an attractive and tidy living environment. The distance between the indoor wall surface and people is close, so the used decorative material has no smell, the clothes can not be polluted after people contact the decorative material, and the texture is soft and exquisite. The interior decoration preferably has a certain air permeability. The floor or ceiling decoration has the functions of partition, moisture-proof and the like besides the function of beauty, and the materials are selected according to the requirements of the use function and are coordinated with the whole indoor decoration.
The utilization of light effects in indoor space is one of the features of modern indoor designs. Sunlight is an important factor of nature and is well utilized in design. After the night curtain arrives, the illumination in the room plays a very key role in atmosphere and mood. And lamps of different styles are matched and combined with indoor environment, so that various indoor emotions of different styles and environmental atmospheres of different styles can be formed. When the lamp is selected, the optical effect is also considered, for example, a ceiling lamp is adopted, and the roof interface has upward feeling; by adopting the ceiling lamp, the roof interface has a downward feeling; the space with stronger light gives a sense of enlargement.
Disclosure of Invention
The invention needs to have the following important invention points:
(1) calculating population distribution density in the bedroom based on the preset bedroom area and the number of one or more human body objects obtained through customized recognition processing, and determining a virtual masking degree in inverse proportion to the population distribution density based on the received population distribution density, so that balance is achieved between bedroom air fluency and privacy protection;
(2) introducing grade identification equipment, information analysis equipment and pixel point counting equipment, and determining the data volume grade of the image based on the number of bytes occupied by the pixel value of each pixel point in the image and the total number of the pixel points in the image;
(3) different image processing modes are executed on different components of the image by utilizing the characteristics and the importance degrees of different colors, so that the image processing speed is improved while the image processing effect is ensured.
According to an aspect of the present invention, there is provided a data acquisition platform based on signal analysis, the platform comprising:
the density extraction device is connected with the curvature adjustment device and used for receiving a subsequent adjustment image, identifying one or more human body objects in the subsequent adjustment image based on human body imaging characteristics, and calculating population distribution density in a bedroom based on a preset bedroom area and the number of the one or more human body objects;
the virtual masking degree analyzing device is connected with the density extracting device and is used for determining the virtual masking degree which is inversely proportional to the received population distribution density based on the received population distribution density;
the opening control device is respectively connected with the virtual masking degree analysis device and the bedroom door body, the opening of the bedroom door body is determined and controlled based on the received virtual masking degree, and the opening of the bedroom door body is smaller when the virtual masking degree is higher;
the information analysis equipment is used for receiving an indoor collected image obtained by collecting images of a bedroom, and analyzing the number of bytes occupied by the pixel value of each pixel point in the indoor collected image to obtain a reference number of bytes to be output;
the pixel point counting equipment is used for receiving the indoor collected image and counting the total number of the pixel points in the indoor collected image to obtain a reference total number for output;
the grade identification device is respectively connected with the information analysis device and the pixel point counting device and is used for receiving the reference byte number and the reference total number and determining the grade of the data volume in direct proportion to the reference byte number and the reference total number based on the product of the reference byte number and the reference total number;
the component detection equipment is respectively connected with the information analysis equipment and the grade identification equipment and is used for starting receiving the indoor collected image from the information analysis equipment when the grade of the received data volume is higher than a preset grade threshold value and obtaining the blue component value, the green component value and the red component value of each pixel point in the indoor collected image;
the targeted processing equipment is connected with the component detection equipment and is used for performing dynamic range adjustment on blue patterns formed by blue component values of all pixel points in the indoor collected image to obtain first adjusted patterns, performing dynamic range adjustment on green patterns formed by green component values of all pixel points in the indoor collected image to obtain second adjusted patterns, and performing red patterns formed by red component values of all pixel points in the indoor collected image;
the pattern processing device is connected with the targeted processing device and is used for combining the first adjusted pattern, the second adjusted pattern and the red pattern to obtain a current adjusted image corresponding to the indoor collected image;
and the curvature adjusting device is connected with the pattern processing device and used for receiving the current adjusting image and executing curvature adjustment on the current adjusting image so as to reduce each curvature of each curve in the current adjusting image below a preset curvature threshold value to obtain a subsequent adjusting image.
The data acquisition platform based on signal analysis is reliable in operation and wide in application. Since the population distribution density in the bedroom is calculated based on the preset bedroom area and the number of one or more human body objects obtained through the customized recognition processing, the virtual masking degree inversely proportional to the population distribution density is determined based on the received population distribution density, and therefore balance between the bedroom air fluency and privacy protection is achieved.
Detailed Description
Embodiments of the signal analysis based data acquisition platform of the present invention will be described in detail below.
Bedrooms, also known as bedrooms, are divided into primary and secondary beds, and are rooms in which people sleep, rest or perform sexual activities. A bedroom does not necessarily have a bed, but at least allows a person to lie. Some houses have their main bedrooms with auxiliary bathrooms.
The arrangement of the bedroom is good and bad, which directly influences the life, work and study of people, and the bedroom becomes one of the key points of home decoration design. Therefore, in designing, people firstly pay attention to practicality and secondly decorate. In geomantic omen, the pattern of the bedroom is a very important circle, and the layout of the bedroom directly influences a family's happiness, the harmony of the couple, the health and other elements. The good bedroom pattern not only needs to consider the placement and the orientation of articles, but also is a non-negligible link in the arrangement and the comfort of the whole color tone.
At present, the control of the door body of the bedroom relies on the manual control of people completely, only the electric control mechanism also relies on the manual experience, and the balance is difficult to be achieved between the air fluency of the bedroom and the privacy protection.
In order to overcome the defects, the invention builds a data acquisition platform based on signal analysis, and can effectively solve the corresponding technical problem.
A data acquisition platform based on signal analysis is shown according to an embodiment of the present invention comprising:
the density extraction device is connected with the curvature adjustment device and used for receiving a subsequent adjustment image, identifying one or more human body objects in the subsequent adjustment image based on human body imaging characteristics, and calculating population distribution density in a bedroom based on a preset bedroom area and the number of the one or more human body objects;
the virtual masking degree analyzing device is connected with the density extracting device and is used for determining the virtual masking degree which is inversely proportional to the received population distribution density based on the received population distribution density;
the opening control device is respectively connected with the virtual masking degree analysis device and the bedroom door body, the opening of the bedroom door body is determined and controlled based on the received virtual masking degree, and the opening of the bedroom door body is smaller when the virtual masking degree is higher;
the information analysis equipment is used for receiving an indoor collected image obtained by collecting images of a bedroom, and analyzing the number of bytes occupied by the pixel value of each pixel point in the indoor collected image to obtain a reference number of bytes to be output;
the pixel point counting equipment is used for receiving the indoor collected image and counting the total number of the pixel points in the indoor collected image to obtain a reference total number for output;
the grade identification device is respectively connected with the information analysis device and the pixel point counting device and is used for receiving the reference byte number and the reference total number and determining the grade of the data volume in direct proportion to the reference byte number and the reference total number based on the product of the reference byte number and the reference total number;
the component detection equipment is respectively connected with the information analysis equipment and the grade identification equipment and is used for starting receiving the indoor collected image from the information analysis equipment when the grade of the received data volume is higher than a preset grade threshold value and obtaining the blue component value, the green component value and the red component value of each pixel point in the indoor collected image;
the targeted processing equipment is connected with the component detection equipment and is used for performing dynamic range adjustment on blue patterns formed by blue component values of all pixel points in the indoor collected image to obtain first adjusted patterns, performing dynamic range adjustment on green patterns formed by green component values of all pixel points in the indoor collected image to obtain second adjusted patterns, and performing red patterns formed by red component values of all pixel points in the indoor collected image;
the pattern processing device is connected with the targeted processing device and is used for combining the first adjusted pattern, the second adjusted pattern and the red pattern to obtain a current adjusted image corresponding to the indoor collected image;
the curvature adjusting device is connected with the pattern processing device and used for receiving the current adjusting image and executing curvature adjustment on the current adjusting image so as to reduce each curvature of each curve in the current adjusting image below a preset curvature threshold value to obtain a subsequent adjusting image;
an ADSL communication device connected with the targeted processing device for receiving and transmitting the first adjusted pattern, the second adjusted pattern and the red pattern through an ADSL communication link;
the grade identification equipment, the information analysis equipment and the pixel point statistic equipment are all connected with the same 32-bit parallel data bus;
wherein, the grade identification equipment, the information analysis equipment and the pixel point statistic equipment are integrated on the same integrated circuit board;
the targeted processing device is further connected with the level identification device and is used for entering a working state from a power saving state when the level of the received data volume is higher than a preset level threshold.
Next, the detailed structure of the data acquisition platform based on signal analysis according to the present invention will be further described.
In the data acquisition platform based on signal analysis:
the pattern processing device is also connected with the grade recognition device and is used for entering a working state from a power saving state when the grade of the received data volume is higher than a preset grade threshold value.
The data acquisition platform based on signal analysis may further include:
and the amplitude measuring device is connected with the curvature adjusting device and used for receiving the subsequent adjusting image, analyzing the amplitude of the noise in the subsequent adjusting image to obtain the maximum amplitude in the subsequent adjusting image, and determining the sizes of the image segmentation blocks which are in direct proportion to the maximum amplitude based on the maximum amplitude to obtain all segmentation blocks with the same size.
The data acquisition platform based on signal analysis may further include:
and the area selection device is connected with the amplitude measurement device and used for receiving the segmentation blocks with the same size and selecting four segmentation blocks positioned at four corner positions in the subsequent adjustment image from the segmentation blocks in the subsequent adjustment image as four corner segmentation blocks.
The data acquisition platform based on signal analysis may further include:
and the regional identification equipment is respectively connected with the amplitude measuring equipment and the regional selection equipment and is used for receiving the four segmentation blocks, acquiring the pepper noise amplitude of each corner segmentation block, and performing averaging calculation on the four pepper noise amplitudes of the four corner image regions so as to output the acquired average value as a target pepper noise amplitude.
The data acquisition platform based on signal analysis may further include:
and the command starting device is connected with the sub-region identification device and used for receiving the target pepper noise amplitude, sending a lower pepper noise amplitude command when the target pepper noise amplitude is smaller than a preset pepper noise amplitude, and sending a higher pepper noise amplitude command when the target pepper noise amplitude is larger than or equal to the preset pepper noise amplitude.
The data acquisition platform based on signal analysis may further include:
and the maximum filtering device is respectively connected with the density extraction device, the sub-area identification device and the command starting device, is used for executing maximum filtering processing on the subsequent adjustment image when receiving the higher pepper noise amplitude command to obtain a maximum filtering image and sending the maximum filtering image to the density extraction device instead of the subsequent adjustment image, and is also used for skipping executing maximum filtering processing on the subsequent adjustment image when receiving the lower pepper noise amplitude command to directly send the subsequent adjustment image to the density extraction device.
In the data acquisition platform based on signal analysis:
the amplitude measuring device, the region selecting device, the sub-region identifying device, the command starting device and the maximum value filtering device share the same quartz oscillator.
In addition, ADSL is a technology for providing broadband data transmission service to homes and offices through the existing general telephone line, and it can provide very high data transmission bandwidth wide enough for telecommunication industry to be breathless. The ADSL solution does not require modification of the signal transmission line, it only requires a pair of special MODEMs, one of which is connected to the user's computer and the other of which is installed in the telecommunications center of the telecommunications company, the connections of which are still ordinary telephone lines. The speed of data transmission is indeed much improved after the ADSL scheme is adopted. The transmission speed of the ADSL scheme is about 50 times that of the ISDN scheme and 20 times that of the satellite scheme, and the ADSL does not need to change the line, so that the ADSL is a feasible network acceleration scheme. ADSL was designed for video on demand at the beginning of its development. With the rapid development of the internet, ADSL has changed over as a technology for accessing the internet at a high speed, so that users feel new and it becomes possible to provide multimedia services on the existing internet. Companies providing telecommunication services are worried that they can configure ASDL equipment according to the user amount very flexibly without investing astronomical digital funds for line replacement, and provide more online services for users.
Those of ordinary skill in the art will understand that: all or part of the steps for implementing the method embodiments may be implemented by hardware related to program instructions, and the program may be stored in a computer readable storage medium, and when executed, the program performs the steps including the method embodiments; and the aforementioned storage medium includes: Read-Only Memory (ROM), Random Access Memory (RAM), magnetic or optical disk, and other various media capable of storing program codes.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.
Claims (8)
1. A data acquisition platform based on signal analysis, the platform comprising:
the density extraction device is connected with the curvature adjustment device and used for receiving a subsequent adjustment image, identifying one or more human body objects in the subsequent adjustment image based on human body imaging characteristics, and calculating population distribution density in a bedroom based on a preset bedroom area and the number of the one or more human body objects;
the virtual masking degree analyzing device is connected with the density extracting device and is used for determining the virtual masking degree which is inversely proportional to the received population distribution density based on the received population distribution density;
the opening control device is respectively connected with the virtual masking degree analysis device and the bedroom door body, the opening of the bedroom door body is determined and controlled based on the received virtual masking degree, and the opening of the bedroom door body is smaller when the virtual masking degree is higher;
the information analysis equipment is used for receiving an indoor collected image obtained by collecting images of a bedroom, and analyzing the number of bytes occupied by the pixel value of each pixel point in the indoor collected image to obtain a reference number of bytes to be output;
the pixel point counting equipment is used for receiving the indoor collected image and counting the total number of the pixel points in the indoor collected image to obtain a reference total number for output;
the grade identification device is respectively connected with the information analysis device and the pixel point counting device and is used for receiving the reference byte number and the reference total number and determining the grade of the data volume in direct proportion to the reference byte number and the reference total number based on the product of the reference byte number and the reference total number;
the component detection equipment is respectively connected with the information analysis equipment and the grade identification equipment and is used for starting receiving the indoor collected image from the information analysis equipment when the grade of the received data volume is higher than a preset grade threshold value and obtaining the blue component value, the green component value and the red component value of each pixel point in the indoor collected image;
the targeted processing equipment is connected with the component detection equipment and is used for performing dynamic range adjustment on blue patterns formed by blue component values of all pixel points in the indoor collected image to obtain first adjusted patterns, performing dynamic range adjustment on green patterns formed by green component values of all pixel points in the indoor collected image to obtain second adjusted patterns, and performing red patterns formed by red component values of all pixel points in the indoor collected image;
the pattern processing device is connected with the targeted processing device and is used for combining the first adjusted pattern, the second adjusted pattern and the red pattern to obtain a current adjusted image corresponding to the indoor collected image;
the curvature adjusting device is connected with the pattern processing device and used for receiving the current adjusting image and executing curvature adjustment on the current adjusting image so as to reduce each curvature of each curve in the current adjusting image below a preset curvature threshold value to obtain a subsequent adjusting image;
an ADSL communication device connected with the targeted processing device for receiving and transmitting the first adjusted pattern, the second adjusted pattern and the red pattern through an ADSL communication link;
the grade identification equipment, the information analysis equipment and the pixel point statistic equipment are all connected with the same 32-bit parallel data bus;
wherein, the grade identification equipment, the information analysis equipment and the pixel point statistic equipment are integrated on the same integrated circuit board;
the targeted processing device is further connected with the level identification device and is used for entering a working state from a power saving state when the level of the received data volume is higher than a preset level threshold.
2. A data acquisition platform based on signal analysis according to claim 1, characterized in that:
the pattern processing device is also connected with the grade recognition device and is used for entering a working state from a power saving state when the grade of the received data volume is higher than a preset grade threshold value.
3. The signal analysis-based data acquisition platform of claim 2, wherein the platform further comprises:
and the amplitude measuring device is connected with the curvature adjusting device and used for receiving the subsequent adjusting image, analyzing the amplitude of the noise in the subsequent adjusting image to obtain the maximum amplitude in the subsequent adjusting image, and determining the sizes of the image segmentation blocks which are in direct proportion to the maximum amplitude based on the maximum amplitude to obtain all segmentation blocks with the same size.
4. The signal analysis-based data acquisition platform of claim 3, wherein the platform further comprises:
and the area selection device is connected with the amplitude measurement device and used for receiving the segmentation blocks with the same size and selecting four segmentation blocks positioned at four corner positions in the subsequent adjustment image from the segmentation blocks in the subsequent adjustment image as four corner segmentation blocks.
5. The signal analysis-based data acquisition platform of claim 4, wherein the platform further comprises:
and the regional identification equipment is respectively connected with the amplitude measuring equipment and the regional selection equipment and is used for receiving the four segmentation blocks, acquiring the pepper noise amplitude of each corner segmentation block, and performing averaging calculation on the four pepper noise amplitudes of the four corner image regions so as to output the acquired average value as a target pepper noise amplitude.
6. The signal analysis-based data acquisition platform of claim 5, wherein the platform further comprises:
and the command starting device is connected with the sub-region identification device and used for receiving the target pepper noise amplitude, sending a lower pepper noise amplitude command when the target pepper noise amplitude is smaller than a preset pepper noise amplitude, and sending a higher pepper noise amplitude command when the target pepper noise amplitude is larger than or equal to the preset pepper noise amplitude.
7. The signal analysis-based data acquisition platform of claim 6, wherein the platform further comprises:
and the maximum filtering device is respectively connected with the density extraction device, the sub-area identification device and the command starting device, is used for executing maximum filtering processing on the subsequent adjustment image when receiving the higher pepper noise amplitude command to obtain a maximum filtering image and sending the maximum filtering image to the density extraction device instead of the subsequent adjustment image, and is also used for skipping executing maximum filtering processing on the subsequent adjustment image when receiving the lower pepper noise amplitude command to directly send the subsequent adjustment image to the density extraction device.
8. A signal analysis-based data acquisition platform as claimed in claim 7, wherein:
the amplitude measuring device, the region selecting device, the sub-region identifying device, the command starting device and the maximum value filtering device share the same quartz oscillator.
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