CN113805628B - Self-adaptive adjustment system and method for suspension plate body - Google Patents

Abstract

The invention relates to a self-adaptive adjusting system of a suspension plate body, which comprises: the environment sensing mechanism is arranged right above the intelligent suspension plate body and used for executing photoelectric sensing operation on the office environment of the intelligent suspension plate body so as to obtain a corresponding office environment image; the initial layer extraction component is arranged in the waterproof shell and used for carrying out affine transformation processing on the wirelessly received office environment image so as to obtain a corresponding signal transformation image; and the secondary layer extraction component is used for carrying out image data sharpening operation by high-pass filtering on the received signal transformation image so as to obtain a corresponding targeted sharpened image. The invention also relates to a self-adaptive adjusting method of the suspension plate body. According to the invention, a customized visual detection mechanism is introduced for detecting the approaching degree of personnel targets near the intelligent suspension plate body, and the upward lifting action on the intelligent suspension plate body is triggered only when nearby personnel are too close, so that the intelligent suspension plate body can be used for water office work.

Description

Self-adaptive adjustment system and method for suspension plate body

Technical Field

The invention relates to the field of cloud computing application, in particular to a system and a method for self-adaptive adjustment of a suspension plate body.

Background

Cloud computing is a new innovation in the information era after the internet and computers, cloud computing is a great leap in the information era, the future era can be the cloud computing era, although the current definitions of cloud computing are many, the cloud computing has many meanings on the whole, in summary, the basic meanings of the cloud computing are consistent, namely the cloud computing has strong expansibility and desirability, and a brand new experience can be provided for users.

The core of cloud computing is that many computer resources can be coordinated together, so that a user can acquire infinite resources through a network, and the acquired resources are not limited by time and space. Currently, cloud computing can be applied to many fields, for example, the high-performance storage mode of the cloud computing storage can lay the cloud computing storage to various specific places needing storage application, including some visual monitoring places. When the overwater office becomes fashion popular with white-collar workers, the reliability, the power saving performance and the like of the intelligent suspension plate body become important points and difficulties for research of people.

Disclosure of Invention

In order to solve the technical problems in the prior art, the invention provides a suspension plate body self-adaptive adjusting system and method, which can introduce a customized visual detection mechanism for detecting the approaching degree of personnel targets near an intelligent suspension plate body aiming at the harsh special requirements of the intelligent suspension plate body on power loss and reliability, and trigger the upward lifting action on the intelligent suspension plate body only when nearby personnel are too close, thereby overcoming the existing defects of the intelligent suspension plate body.

Compared with the prior art, the invention at least needs to have the following outstanding substantive characteristics:

(1) the intelligent suspension plate body is introduced and comprises a suspension plate body and a pushing motor arranged below the suspension plate body, wherein the pushing motor is positioned in a waterproof shell below the suspension plate body and used for adjusting the upward thrust of the suspension plate body based on the current real-time load weight borne by the suspension plate body when a first control command is received, so that the intelligent support operation on the intelligent suspension plate body is triggered when a nearby human body target is detected to ensure the suspension reliability of the intelligent suspension plate body;

(2) introducing a cloud computing server, adopting a plurality of storage sub network elements for respectively storing reference patterns of various races, wherein the reference pattern of each race comprises a plurality of patterns so as to correspond to different sexes or different ages of the races.

According to an aspect of the present invention, there is provided a suspension deck adaptive adjustment system, the system comprising:

the environment sensing mechanism is arranged right above the intelligent suspension plate body and used for executing photoelectric sensing operation on the office environment of the intelligent suspension plate body so as to obtain a corresponding office environment image;

the primary layer extraction component is arranged in the waterproof shell, is connected with the environment induction mechanism through a wireless network, and is used for performing affine transformation processing on the wirelessly received office environment image so as to obtain a corresponding signal transformation image;

the secondary layer extraction component is connected with the primary layer extraction component and is used for carrying out image data sharpening operation by high-pass filtering on the received signal conversion image so as to obtain a corresponding pertinence sharpened image;

the last-layer extraction component is connected with the secondary-layer extraction component and is used for carrying out cropping processing on the received targeted sharpened image so as to obtain a sub-image of the central area of the targeted sharpened image to be output as a cropping processing picture;

the human species searching mechanism is respectively connected with the cloud computing server and the last layer extracting component and is used for searching image blocks which are out of matching degree with reference pattern content of a certain human species stored by the cloud computing server in the cutting processing picture to be used as imaging blocks with a single human body target;

the command conversion component is connected with the race search mechanism and used for receiving more than one imaging block in the cut picture and sending a first control command when the number of pixel points occupied by one imaging block exceeds a set number threshold value or the depth of field value of a single human body target corresponding to one imaging block is less than or equal to a set depth of field limit value;

the cloud computing server is used for respectively storing the reference patterns of all races by adopting a plurality of storage sub network elements, and the reference pattern of each race comprises a plurality of patterns so as to correspond to different genders or different ages of the races;

the intelligent suspension plate body comprises a suspension plate body and a pushing motor arranged below the suspension plate body, wherein the pushing motor is positioned in a waterproof shell below the suspension plate body and is used for adjusting the upward thrust of the suspension plate body based on the current real-time load weight borne by the suspension plate body when receiving a first control command;

the command conversion component is further used for sending a second control command when the number of pixels occupied by one imaging block does not exist in the clipping processing picture exceeds a set number threshold value and the depth of field value of a single human body target corresponding to the imaging block does not exist and is less than or equal to a set depth of field limit value;

the intelligent suspension board body is provided with a waterproof shell, a load detection element and a power supply element, wherein the intelligent suspension board body further comprises the power supply element which is arranged in the waterproof shell, is respectively connected with the pushing motor and the load detection element and is used for respectively providing power support for the pushing motor and the load detection element;

and the pushing motor is also used for stopping adjusting the upward thrust of the suspension plate body based on the current real-time load weight borne by the suspension plate body when receiving a second control command.

According to another aspect of the present invention, there is also provided a suspension plate body adaptive adjustment method, including:

the environment sensing mechanism is arranged right above the intelligent suspension plate body and used for executing photoelectric sensing operation on the office environment of the intelligent suspension plate body so as to obtain a corresponding office environment image;

the initial layer extraction component is arranged in the waterproof shell, is connected with the environment induction mechanism through a wireless network and is used for performing affine transformation processing on the wirelessly received office environment image so as to obtain a corresponding signal transformation image;

using a secondary layer extraction component connected with the primary layer extraction component and used for carrying out image data sharpening operation by high-pass filtering on the received signal transformation image so as to obtain a corresponding targeted sharpened image;

using a last layer extracting component connected with the secondary layer extracting component and used for carrying out cropping processing on the received targeted sharpened image so as to obtain a sub-image of a central area of the targeted sharpened image to be output as a cropping processing picture;

using a human species searching mechanism which is respectively connected with the cloud computing server and the last layer extraction component and is used for searching image blocks which are out of matching with the reference pattern content of a certain human species stored by the cloud computing server in the cutting processing picture to be used as imaging blocks with a single human body target;

the human species searching mechanism is used for cutting a human species image, and sending a first control command when the number of pixels occupied by a certain imaging block exceeds a set number threshold value or the depth of field value of a single human body target corresponding to the certain imaging block is less than or equal to a set depth of field limit value;

using a cloud computing server, employing a plurality of storage sub-network elements for respectively storing reference patterns of respective races, the reference pattern of each race including a plurality of patterns to correspond to different genders or different ages of the races;

the intelligent suspension plate body is used and comprises a suspension plate body and a pushing motor arranged below the suspension plate body, wherein the pushing motor is positioned in a waterproof shell below the suspension plate body and is used for adjusting the upward thrust of the suspension plate body based on the current real-time load weight borne by the suspension plate body when a first control command is received;

the command conversion component is further used for sending a second control command when the number of pixels occupied by one imaging block does not exist in the clipping processing picture exceeds a set number threshold value and the depth of field value of a single human body target corresponding to the imaging block does not exist and is less than or equal to a set depth of field limit value;

the intelligent suspension board body is provided with a waterproof shell, a load detection element and a power supply element, wherein the intelligent suspension board body further comprises the power supply element which is arranged in the waterproof shell, is respectively connected with the pushing motor and the load detection element and is used for respectively providing power support for the pushing motor and the load detection element;

and the pushing motor is also used for stopping adjusting the upward thrust of the suspension plate body based on the current real-time load weight borne by the suspension plate body when receiving a second control command.

Detailed Description

An embodiment of the suspension plate body adaptive adjustment method of the present invention will be described in detail below.

The internet has emerged since 1960 and is mainly used for plain text e-mail or news cluster services between military parties, large enterprises and the like. The network has become one of the life necessities that people can not leave with the development of web sites and electronic commerce until 1990, which has begun to enter ordinary households. The concept of cloud computing is proposed for the first time in the search engine meeting of 8 months in 2006, and becomes a third revolution of the internet.

In recent years, cloud computing is becoming a strategic focus of development of information technology industries, and information technology enterprises around the world are transformed into cloud computing in disputes. For example, each company needs to perform data informatization, store related operation data, perform product management, personnel management, financial management, and the like, and the basic device for performing data management is a computer. Currently, cloud computing can be applied to many fields, for example, the high-performance storage mode of the cloud computing storage can lay the cloud computing storage to various specific places needing storage application, including some visual monitoring places. When the overwater office becomes fashion popular with white-collar workers, the reliability, the power saving performance and the like of the intelligent suspension plate body become important points and difficulties for research of people.

In order to overcome the defects, the invention builds a self-adaptive adjusting system and a self-adaptive adjusting method for the suspension plate body, and can effectively solve the corresponding technical problem.

The suspension plate body self-adaptive adjusting system shown according to the embodiment of the invention comprises:

the environment sensing mechanism is arranged right above the intelligent suspension plate body and used for executing photoelectric sensing operation on the office environment of the intelligent suspension plate body so as to obtain a corresponding office environment image;

the primary layer extraction component is arranged in the waterproof shell, is connected with the environment induction mechanism through a wireless network, and is used for performing affine transformation processing on the wirelessly received office environment image so as to obtain a corresponding signal transformation image;

the secondary layer extraction component is connected with the primary layer extraction component and is used for carrying out image data sharpening operation by high-pass filtering on the received signal conversion image so as to obtain a corresponding pertinence sharpened image;

the last-layer extraction component is connected with the secondary-layer extraction component and is used for carrying out cropping processing on the received targeted sharpened image so as to obtain a sub-image of the central area of the targeted sharpened image to be output as a cropping processing picture;

the human species searching mechanism is respectively connected with the cloud computing server and the last layer extracting component and is used for searching image blocks which are out of matching degree with reference pattern content of a certain human species stored by the cloud computing server in the cutting processing picture to be used as imaging blocks with a single human body target;

the command conversion component is connected with the race search mechanism and used for receiving more than one imaging block in the cut picture and sending a first control command when the number of pixel points occupied by one imaging block exceeds a set number threshold value or the depth of field value of a single human body target corresponding to one imaging block is less than or equal to a set depth of field limit value;

the cloud computing server is used for respectively storing the reference patterns of all races by adopting a plurality of storage sub network elements, and the reference pattern of each race comprises a plurality of patterns so as to correspond to different genders or different ages of the races;

the intelligent suspension plate body comprises a suspension plate body and a pushing motor arranged below the suspension plate body, wherein the pushing motor is positioned in a waterproof shell below the suspension plate body and is used for adjusting the upward thrust of the suspension plate body based on the current real-time load weight borne by the suspension plate body when receiving a first control command;

the command conversion component is further used for sending a second control command when the number of pixels occupied by one imaging block does not exist in the clipping processing picture exceeds a set number threshold value and the depth of field value of a single human body target corresponding to the imaging block does not exist and is less than or equal to a set depth of field limit value;

the intelligent suspension board body is provided with a waterproof shell, a load detection element and a power supply element, wherein the intelligent suspension board body further comprises the power supply element which is arranged in the waterproof shell, is respectively connected with the pushing motor and the load detection element and is used for respectively providing power support for the pushing motor and the load detection element;

and the pushing motor is also used for stopping adjusting the upward thrust of the suspension plate body based on the current real-time load weight borne by the suspension plate body when receiving a second control command.

Next, a detailed description of the suspension plate body adaptive adjustment system of the present invention will be further described.

The suspension plate body adaptive adjustment system further comprises:

the humidity measuring equipment is arranged on the shell of the primary layer extracting component and used for measuring the humidity on the position of the shell of the primary layer extracting component;

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 suspension plate body adaptive adjustment system:

the last layer extraction component, the first layer extraction component and the second layer extraction component share the same user control interface, and the user control interface is realized by an ASIC chip.

The suspension plate body adaptive adjustment system further comprises:

and the metal heat dissipation structure is arranged near the sublayer extraction component, is used for being connected with the shell of the sublayer extraction component and is used for realizing heat dissipation treatment of the sublayer extraction component.

In the suspension plate body adaptive adjustment system:

the last layer extraction component is internally provided with a counter used for accumulating the operation times of the addition level of the last layer extraction component in real time.

The suspension plate body self-adaptive adjusting method shown according to the embodiment of the invention comprises the following steps:

the environment sensing mechanism is arranged right above the intelligent suspension plate body and used for executing photoelectric sensing operation on the office environment of the intelligent suspension plate body so as to obtain a corresponding office environment image;

the initial layer extraction component is arranged in the waterproof shell, is connected with the environment induction mechanism through a wireless network and is used for performing affine transformation processing on the wirelessly received office environment image so as to obtain a corresponding signal transformation image;

using a secondary layer extraction component connected with the primary layer extraction component and used for carrying out image data sharpening operation by high-pass filtering on the received signal transformation image so as to obtain a corresponding targeted sharpened image;

using a last layer extracting component connected with the secondary layer extracting component and used for carrying out cropping processing on the received targeted sharpened image so as to obtain a sub-image of a central area of the targeted sharpened image to be output as a cropping processing picture;

using a human species searching mechanism which is respectively connected with the cloud computing server and the last layer extraction component and is used for searching image blocks which are out of matching with the reference pattern content of a certain human species stored by the cloud computing server in the cutting processing picture to be used as imaging blocks with a single human body target;

the human species searching mechanism is used for cutting a human species image, and sending a first control command when the number of pixels occupied by a certain imaging block exceeds a set number threshold value or the depth of field value of a single human body target corresponding to the certain imaging block is less than or equal to a set depth of field limit value;

using a cloud computing server, employing a plurality of storage sub-network elements for respectively storing reference patterns of respective races, the reference pattern of each race including a plurality of patterns to correspond to different genders or different ages of the races;

the intelligent suspension plate body is used and comprises a suspension plate body and a pushing motor arranged below the suspension plate body, wherein the pushing motor is positioned in a waterproof shell below the suspension plate body and is used for adjusting the upward thrust of the suspension plate body based on the current real-time load weight borne by the suspension plate body when a first control command is received;

the command conversion component is further used for sending a second control command when the number of pixels occupied by one imaging block does not exist in the clipping processing picture exceeds a set number threshold value and the depth of field value of a single human body target corresponding to the imaging block does not exist and is less than or equal to a set depth of field limit value;

the intelligent suspension board body is provided with a waterproof shell, a load detection element and a power supply element, wherein the intelligent suspension board body further comprises the power supply element which is arranged in the waterproof shell, is respectively connected with the pushing motor and the load detection element and is used for respectively providing power support for the pushing motor and the load detection element;

and the pushing motor is also used for stopping adjusting the upward thrust of the suspension plate body based on the current real-time load weight borne by the suspension plate body when receiving a second control command.

Next, the specific steps of the suspension plate body adaptive adjustment method of the present invention will be further described.

The self-adaptive adjustment method for the suspension plate body further comprises the following steps:

using a humidity measuring device, arranged on the housing of the primary extraction member, for measuring humidity at the position of the housing of the primary extraction member;

and using instant humidifying equipment, connecting with the humidity measuring equipment, and realizing corresponding humidifying action based on the received humidity.

The self-adaptive adjustment method of the suspension plate body comprises the following steps:

the last layer extraction component, the first layer extraction component and the second layer extraction component share the same user control interface, and the user control interface is realized by an ASIC chip.

The self-adaptive adjustment method for the suspension plate body further comprises the following steps:

and the metal heat dissipation structure is arranged near the secondary extraction component, is used for being connected with the shell of the secondary extraction component and is used for realizing heat dissipation treatment of the secondary extraction component.

The self-adaptive adjustment method of the suspension plate body comprises the following steps:

the last layer extraction component is internally provided with a counter used for accumulating the operation times of the addition level of the last layer extraction component in real time.

In addition, in the suspension board body adaptive adjustment system and method, the race search mechanism includes a picture receiving unit, a target search unit and a data output unit, the picture receiving unit is configured to obtain the clipping processing picture, the target search unit is configured to search, in the clipping processing picture, for an image block with an overrun in matching degree with reference pattern content of a certain race stored by the cloud computing server as an imaging block with a single human body target, and the data output unit is connected to the target search unit and configured to output the imaging block with the single human body target.

By adopting the self-adaptive adjusting system and method for the suspension plate body, the technical problems of insufficient energy-saving performance and reliability of the intelligent suspension plate body in the prior art are solved, a customized visual detection mechanism is introduced for detecting the approaching degree of personnel targets near the intelligent suspension plate body, and the upward lifting action on the intelligent suspension plate body is triggered only when nearby personnel are too close, so that the energy-saving performance and the reliability of the intelligent suspension plate body are improved.

While the present invention has been described with reference to specific exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit or scope of the invention as defined in the appended claims and their equivalents.

Claims (6)

1. A suspension deck adaptive adjustment system, the system comprising:

the environment sensing mechanism is arranged right above the intelligent suspension plate body and used for executing photoelectric sensing operation on the office environment of the intelligent suspension plate body so as to obtain a corresponding office environment image;

the primary layer extraction component is arranged in the waterproof shell, is connected with the environment induction mechanism through a wireless network, and is used for performing affine transformation processing on the wirelessly received office environment image so as to obtain a corresponding signal transformation image;

the secondary layer extraction component is connected with the primary layer extraction component and is used for carrying out image data sharpening operation by high-pass filtering on the received signal conversion image so as to obtain a corresponding pertinence sharpened image;

the last-layer extraction component is connected with the secondary-layer extraction component and is used for carrying out cropping processing on the received targeted sharpened image so as to obtain a sub-image of the central area of the targeted sharpened image to be output as a cropping processing picture;

the cloud computing server is used for respectively storing the reference patterns of all races by adopting a plurality of storage sub network elements, and the reference pattern of each race comprises a plurality of patterns so as to correspond to different genders or different ages of the races;

the human species searching mechanism is respectively connected with the cloud computing server and the last layer extracting component and is used for searching image blocks which are out of matching degree with reference pattern content of a certain human species stored by the cloud computing server in the cutting processing picture to be used as imaging blocks with a single human body target;

the command conversion component is connected with the race search mechanism and used for receiving more than one imaging block in the cut picture and sending a first control command when the number of pixel points occupied by one imaging block exceeds a set number threshold value or the depth of field value of a single human body target corresponding to one imaging block is less than or equal to a set depth of field limit value;

the intelligent suspension plate body comprises a suspension plate body and a pushing motor arranged below the suspension plate body, wherein the pushing motor is positioned in a waterproof shell below the suspension plate body and is used for adjusting the upward thrust on the suspension plate body based on the current real-time load weight borne by the suspension plate body when a first control command is received;

the command conversion component is further used for sending a second control command when the number of pixels occupied by one imaging block does not exist in the clipping processing picture exceeds a set number threshold value and the depth of field value of a single human body target corresponding to the imaging block does not exist and is less than or equal to a set depth of field limit value;

the intelligent suspension board body is characterized by further comprising a power supply element, wherein the power supply element is arranged in the waterproof shell, is respectively connected with the pushing motor and the load detection element, and is used for respectively providing power support for the pushing motor and the load detection element;

the pushing motor is further used for stopping adjusting the upward pushing force of the suspension plate body based on the current real-time load weight borne by the suspension plate body when a second control command is received;

the humidity measuring equipment is arranged on the shell of the primary layer extracting component and used for measuring the humidity on the position of the shell of the primary layer extracting component;

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

the last layer extraction component, the first layer extraction component and the second layer extraction component share the same user control interface, and the user control interface is realized by an ASIC chip.

2. The suspension plate body adaptive adjustment system of claim 1, wherein the system further comprises:

and the metal heat dissipation structure is arranged near the sublayer extraction component, is used for being connected with the shell of the sublayer extraction component and is used for realizing heat dissipation treatment of the sublayer extraction component.

3. The suspension plate body adaptive adjustment system according to claim 1, wherein:

the last layer extraction component is internally provided with a counter used for accumulating the operation times of the addition level of the last layer extraction component in real time.

4. A suspension plate body adaptive adjustment method is characterized by comprising the following steps:

the environment sensing mechanism is arranged right above the intelligent suspension plate body and used for executing photoelectric sensing operation on the office environment of the intelligent suspension plate body so as to obtain a corresponding office environment image;

the initial layer extraction component is arranged in the waterproof shell, is connected with the environment induction mechanism through a wireless network and is used for performing affine transformation processing on the wirelessly received office environment image so as to obtain a corresponding signal transformation image;

using a secondary layer extraction component connected with the primary layer extraction component and used for carrying out image data sharpening operation by high-pass filtering on the received signal transformation image so as to obtain a corresponding targeted sharpened image;

using a last layer extracting component connected with the secondary layer extracting component and used for carrying out cropping processing on the received targeted sharpened image so as to obtain a sub-image of a central area of the targeted sharpened image to be output as a cropping processing picture;

using a cloud computing server, employing a plurality of storage sub-network elements for respectively storing reference patterns of respective races, the reference pattern of each race including a plurality of patterns to correspond to different genders or different ages of the races;

using a human species searching mechanism which is respectively connected with the cloud computing server and the last layer extraction component and is used for searching image blocks which are out of matching with the reference pattern content of a certain human species stored by the cloud computing server in the cutting processing picture to be used as imaging blocks with a single human body target;

the human species searching mechanism is used for cutting a human species image, and sending a first control command when the number of pixels occupied by a certain imaging block exceeds a set number threshold value or the depth of field value of a single human body target corresponding to the certain imaging block is less than or equal to a set depth of field limit value;

the intelligent suspension plate body is used and comprises a suspension plate body and a pushing motor arranged below the suspension plate body, wherein the pushing motor is positioned in a waterproof shell below the suspension plate body and is used for adjusting the upward thrust of the suspension plate body based on the current real-time load weight borne by the suspension plate body when a first control command is received;

the command conversion component is further used for sending a second control command when the number of pixels occupied by one imaging block does not exist in the clipping processing picture exceeds a set number threshold value and the depth of field value of a single human body target corresponding to the imaging block does not exist and is less than or equal to a set depth of field limit value;

the intelligent suspension board body is characterized by further comprising a power supply element, wherein the power supply element is arranged in the waterproof shell, is respectively connected with the pushing motor and the load detection element, and is used for respectively providing power support for the pushing motor and the load detection element;

the pushing motor is further used for stopping adjusting the upward pushing force of the suspension plate body based on the current real-time load weight borne by the suspension plate body when a second control command is received;

using a humidity measuring device, arranged on the housing of the primary extraction member, for measuring humidity at the position of the housing of the primary extraction member;

using instant humidifying equipment, connecting with the humidity measuring equipment, and realizing corresponding humidifying action based on the received humidity;

the last layer extraction component, the first layer extraction component and the second layer extraction component share the same user control interface, and the user control interface is realized by an ASIC chip.

5. The suspension plate body adaptive adjustment method of claim 4, wherein the method further comprises:

and the metal heat dissipation structure is arranged near the secondary extraction component, is used for being connected with the shell of the secondary extraction component and is used for realizing heat dissipation treatment of the secondary extraction component.

6. The suspension board body adaptive adjustment method according to claim 4, characterized in that:

the last layer extraction component is internally provided with a counter used for accumulating the operation times of the addition level of the last layer extraction component in real time.