CN112528736A - Manipulation-simplification system for processing application-specific data - Google Patents

Abstract

The invention relates to a manipulation simplification system applying customized data processing, comprising: the fixed-height camera shooting mechanism comprises a moving structure, ultrasonic measuring equipment and camera shooting equipment; the first analysis equipment is used for identifying and segmenting a sub-image area where a human head object is located from the height-fixed scene image based on the human head top imaging characteristic; the second analysis device is used for calculating the maximum head section area corresponding to the human head object based on the total number of pixels occupied by the sub-image area and the preset height; a size selection device for selecting a size of the cap matching the value zone in which the largest head cross-sectional area falls based on the value range in which the largest head cross-sectional area falls. The operation and control simplification system for processing the application customization data is intelligent in operation and convenient to operate. On the basis of introducing the fixed-height camera shooting mechanism, the corresponding cap body size can be intelligently selected based on the head data of the purchaser, so that the purchaser is prevented from being involved in a lengthy cap trying process, and the selling efficiency of the seller is improved.

Description

Manipulation-simplification system for processing application-specific data

Technical Field

The invention relates to the field of intelligent instruments, in particular to a control simplification system for processing application customization data.

Background

The intelligent instrument is a measuring instrument containing a microcomputer or a microprocessor and has the functions of data storage and operation logic judgment, automatic operation and the like. The appearance of intelligent instruments greatly expands the application range of traditional instruments. The intelligent instrument is rapidly and widely applied to household appliances, scientific research units and industrial enterprises by virtue of the advantages of small volume, strong function, low power consumption and the like.

The working principle of the intelligent instrument is as follows: the sensor picks up the information of the measured parameter and converts the information into an electric signal, and the electric signal is filtered to remove interference and then is sent into a multi-channel analog switch; the analog switch is gated by the singlechip path by path to send the signals of each input channel to the program control gain amplifier one by one, and the amplified signals are converted into corresponding pulse signals by the A/D converter and then sent to the singlechip; the singlechip performs corresponding data operation and processing according to the initial value set by the instrument; converting the operation result into corresponding data for displaying and printing; meanwhile, after the single chip microcomputer carries out operation comparison on the operation result and the set parameters stored in the flash ROM or the E2PROM, corresponding control signals (such as triggering of an alarm device, contact points of a relay and the like) are output according to the operation result and the control requirements. In addition, the intelligent instrument can also form a distributed measurement and control system with a PC (personal computer), the singlechip is used as a lower computer to collect various measurement signals and data, information is transmitted to an upper computer, namely the PC, through serial communication, and the PC performs overall management.

In the prior art, when purchasing the coat and hat, a purchaser needs to frequently try on and watch the coat and hat to determine whether the coat and hat which is tried on at present is suitable for the head of the purchaser or not, on one hand, a large amount of time is wasted in the trying-on mode, the purchasing time of the purchaser is increased, the time cost of the seller is increased, on the other hand, the manual detection mode is not accurate enough, and the possibility of mistakenly selecting the wrong size exists.

Disclosure of Invention

The invention needs to have at least the following two key points:

(1) a fixed-height camera shooting mechanism with a targeted measurement mechanism is introduced, and the fixed-height camera shooting mechanism comprises a mobile structure, ultrasonic measurement equipment and camera shooting equipment and is used for performing field measurement on head data of purchasers;

(2) the corresponding cap body size is intelligently selected based on the field measurement result of the head data of the purchaser, so that the purchaser is prevented from falling into a lengthy cap trying process, and the selling efficiency of the seller is improved.

According to an aspect of the present invention, there is provided a manipulation simplification system for application customization data processing, the system including:

the height-fixed camera shooting mechanism comprises a moving structure, ultrasonic measuring equipment and camera shooting equipment, wherein the camera shooting equipment is arranged below the moving structure and used for driving the camera shooting equipment to adjust the vertical height of the camera shooting equipment to the head of a human body below the moving structure, the ultrasonic measuring equipment comprises an ultrasonic transmitter, an ultrasonic receiver and a main controller, the ultrasonic measuring equipment is arranged below the moving structure and adjacent to the camera shooting equipment and used for measuring the vertical height of the camera shooting equipment to the head of the human body below the moving structure, when the vertical height obtained by measurement is consistent with the preset height, a movement stopping instruction is generated for the moving structure, a shooting starting instruction is generated for the camera shooting equipment, and when the camera shooting starting instruction is received, the camera shooting equipment shoots a scene below the camera shooting equipment to obtain a height-fixed scene image;

the first analysis equipment is connected with the camera equipment and used for identifying and segmenting a sub-image area where a human head object is located from the height-fixed scene image based on human head top imaging characteristics;

the second analysis device is connected with the first analysis device and used for calculating the maximum head section area corresponding to the human head object based on the total number of pixels occupied by the sub-image region and the preset height;

the size selection device is connected with the second analysis device and used for selecting the size of the cap body matched with the falling numerical value area based on the numerical value interval in which the maximum head section area falls;

the size storage device is realized by adopting an SDRAM (synchronous dynamic random access memory) storage chip, is connected with the size selection device and is used for pre-storing different numerical value intervals in which the maximum head section areas corresponding to different cap body sizes fall;

wherein calculating the maximum head cross-sectional area corresponding to the human head object based on the total number of pixels occupied by the sub-image regions and the preset height comprises: the larger the total number of pixels occupied by the sub-image region, the larger the maximum head cross-sectional area, and the higher the preset height, the larger the maximum head cross-sectional area.

The operation and control simplification system for processing the application customization data is intelligent in operation and convenient to operate. On the basis of introducing the fixed-height camera shooting mechanism, the corresponding cap body size can be intelligently selected based on the head data of the purchaser, so that the purchaser is prevented from being involved in a lengthy cap trying process, and the selling efficiency of the seller is improved.

Drawings

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

fig. 1 is a schematic configuration diagram of an ultrasonic measurement apparatus to which a manipulation simplification system for customized data processing is applied according to an embodiment of the present invention.

Detailed Description

Embodiments of the manipulation simplification system of application-specific data processing of the present invention will be described in detail below with reference to the accompanying drawings.

A hat, a garment worn on the head, can mostly cover the entire top of the head. The hat is mainly used for protecting the head, and a part of the hat has a protruding edge which can cover the sunlight. The hat has the functions of shading, decorating, warming, protecting and the like, so the hat has a plurality of varieties and a plurality of selected choices. The hat can also be used for making a dress, and firstly, a proper hat is selected according to the face shape. Secondly, the cap is selected according to the stature of the user. When wearing a hat, the user needs to make best use of the advantages and avoid the disadvantages as much as possible. The form, color and the like of the hat must be matched with decorations and the like. The cap may also be used to protect the hairstyle, to cover baldness, or as part of a uniform or religious apparel. May be of different kinds, such as hats, sun caps, etc. Some hats have an outwardly extending brim, called a visor. Wearing a hat has different etiquettes in different cultures. This is particularly important in western cultures, as wearing hats has been a metaphor of social identity in the past.

In the prior art, when purchasing the coat and hat, a purchaser needs to frequently try on and watch the coat and hat to determine whether the coat and hat which is tried on at present is suitable for the head of the purchaser or not, on one hand, a large amount of time is wasted in the trying-on mode, the purchasing time of the purchaser is increased, the time cost of the seller is increased, on the other hand, the manual detection mode is not accurate enough, and the possibility of mistakenly selecting the wrong size exists.

In order to overcome the defects, the invention builds a control simplification system for processing the application customization data, and can effectively solve the corresponding technical problem.

The manipulation simplification system for application customization data processing shown according to the embodiment of the present invention includes:

the fixed-height camera shooting mechanism comprises a moving structure, ultrasonic measuring equipment and camera shooting equipment, wherein the internal structure of the ultrasonic measuring equipment is shown in figure 1;

the camera shooting device is arranged below the moving mechanism and used for driving the camera shooting device to adjust the vertical height of the camera shooting device to the head of a human body below the camera shooting device, the ultrasonic measuring device comprises an ultrasonic transmitter, an ultrasonic receiver and a main controller, the ultrasonic measuring device is arranged below the moving mechanism and adjacent to the camera shooting device and used for measuring the vertical height of the camera shooting device to the head of the human body below the camera shooting device, when the vertical height obtained through measurement is consistent with the preset height, a moving stopping instruction is generated for the moving structure, a shooting starting instruction is generated for the camera shooting device, and when the camera shooting device receives the shooting starting instruction, the camera shooting device shoots a scene below the camera shooting device to obtain a constant-height scene image;

the first analysis equipment is connected with the camera equipment and used for identifying and segmenting a sub-image area where a human head object is located from the height-fixed scene image based on human head top imaging characteristics;

the second analysis device is connected with the first analysis device and used for calculating the maximum head section area corresponding to the human head object based on the total number of pixels occupied by the sub-image region and the preset height;

the size selection device is connected with the second analysis device and used for selecting the size of the cap body matched with the falling numerical value area based on the numerical value interval in which the maximum head section area falls;

the size storage device is realized by adopting an SDRAM (synchronous dynamic random access memory) storage chip, is connected with the size selection device and is used for pre-storing different numerical value intervals in which the maximum head section areas corresponding to different cap body sizes fall;

wherein calculating the maximum head cross-sectional area corresponding to the human head object based on the total number of pixels occupied by the sub-image regions and the preset height comprises: the larger the total number of pixels occupied by the sub-image region, the larger the maximum head cross-sectional area, and the higher the preset height, the larger the maximum head cross-sectional area.

Next, the detailed structure of the manipulation simplification system for application-customized data processing of the present invention will be further described.

In the manipulation reduction system for application customization data processing:

in the size storage device, the smaller the cap size, the smaller the number of different value ranges in which the corresponding maximum head cross-sectional area falls.

In the manipulation reduction system for application customization data processing:

the first and second resolving devices are both located inside a housing of the mobile structure.

In the manipulation simplification system for application customization data processing, the method further includes:

the height detection mechanism is arranged on the left side of the first analysis equipment;

wherein the height detection mechanism is configured to detect a current height of the first interpretation device for output as a field device height.

In the manipulation simplification system for application customization data processing, the method further includes:

the data identification device is connected with the height detection mechanism, arranged on the right side of the first analysis device and used for receiving the height of the field device;

the data identification equipment is also used for sending out a height mismatch signal when the height of the received field equipment is not within a preset height range, and the data identification equipment is also used for sending out a height matching signal when the height of the received field equipment is within the preset height range.

In the manipulation simplification system for application customization data processing, the method further includes:

the adjustable base is arranged at the bottom of the first analysis equipment and used for adjusting the height from the bottom of the first analysis equipment to the bottom of the first analysis equipment based on the received height control signal.

In the manipulation reduction system for application customization data processing:

the adjustable base is connected with the data identification device and used for adjusting until a height matching signal is received when the height mismatching signal is received, and the data identification device and the first analysis device are located on the same printed circuit board.

In the manipulation simplification system for application customization data processing, the method further includes:

and the direct current brushless motor is arranged near the second analytical equipment and used for providing assistance for the adjustment of the adjustable base.

In the manipulation reduction system for application customization data processing:

the first analysis device, the second analysis device and the data identification device share the same IIC control bus to receive control instructions of the IIC control bus.

In the manipulation simplification system for application customization data processing, the method further includes:

and the TF storage mechanism is used for respectively providing operation configuration data for the first analysis equipment, the second analysis equipment and the data identification equipment.

In addition, in the simplified control system applying the customized data processing, the IIC serial bus generally has two signal lines, one is a bidirectional data line SDA, and the other is a clock line SCL. All serial data SDA connected to IIC bus equipment are connected to SDA of the bus, and clock lines SCL of all the equipment are connected to SCL of the bus. To avoid cluttering of the bus signals, IIC serial buses require that each device be connected to the output of the bus either as an open-drain (OD) output or an open-collector (OC) output. The serial data line SDA interface circuitry on the device should be bi-directional, with output circuitry for sending data onto the bus and input circuitry for receiving data on the bus. The serial clock line should also be bidirectional, and as a host for controlling bus data transmission, on one hand, a clock signal is sent through an SCL output circuit, and on the other hand, the SCL level on the bus is detected to determine when to send the next clock pulse level; as the slave receiving the command from the master, the slave may send or receive the signal on the SDA according to the SCL signal on the bus, or send a low signal to the SCL line to extend the period of the bus clock signal. When the bus is idle, the pull-up resistor Rp keeps the SDA and SCL lines at high level because each device is an open-drain output. The low level output by either device will cause the corresponding bus signal line to go low, that is: the SDA and SCL of each device is also in an AND relationship.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (10)

1. A manipulation reduction system for customized data processing, the system comprising:

the height-fixed camera shooting mechanism comprises a moving structure, ultrasonic measuring equipment and camera shooting equipment, wherein the camera shooting equipment is arranged below the moving structure and used for driving the camera shooting equipment to adjust the vertical height of the camera shooting equipment to the head of a human body below the moving structure, the ultrasonic measuring equipment comprises an ultrasonic transmitter, an ultrasonic receiver and a main controller, the ultrasonic measuring equipment is arranged below the moving structure and adjacent to the camera shooting equipment and used for measuring the vertical height of the camera shooting equipment to the head of the human body below the moving structure, when the vertical height obtained by measurement is consistent with the preset height, a movement stopping instruction is generated for the moving structure, a shooting starting instruction is generated for the camera shooting equipment, and when the camera shooting starting instruction is received, the camera shooting equipment shoots a scene below the camera shooting equipment to obtain a height-fixed scene image;

the first analysis equipment is connected with the camera equipment and used for identifying and segmenting a sub-image area where a human head object is located from the height-fixed scene image based on human head top imaging characteristics;

the second analysis device is connected with the first analysis device and used for calculating the maximum head section area corresponding to the human head object based on the total number of pixels occupied by the sub-image region and the preset height;

the size selection device is connected with the second analysis device and used for selecting the size of the cap body matched with the falling numerical value area based on the numerical value interval in which the maximum head section area falls;

the size storage device is realized by adopting an SDRAM (synchronous dynamic random access memory) storage chip, is connected with the size selection device and is used for pre-storing different numerical value intervals in which the maximum head section areas corresponding to different cap body sizes fall;

wherein calculating the maximum head cross-sectional area corresponding to the human head object based on the total number of pixels occupied by the sub-image regions and the preset height comprises: the larger the total number of pixels occupied by the sub-image region, the larger the maximum head cross-sectional area, and the higher the preset height, the larger the maximum head cross-sectional area.

2. The manipulation reduction system for application customization data processing of claim 1, wherein:

in the size storage device, the smaller the cap size, the smaller the number of different value ranges in which the corresponding maximum head cross-sectional area falls.

3. The manipulation reduction system for applying customized data processing according to claim 2, wherein:

the first and second resolving devices are both located inside a housing of the mobile structure.

4. The manipulation reduction system for application customization data processing according to claim 3, further comprising:

the height detection mechanism is arranged on the left side of the first analysis equipment;

wherein the height detection mechanism is configured to detect a current height of the first interpretation device for output as a field device height.

5. The manipulation reduction system for application customization data processing according to claim 4, further comprising:

the data identification device is connected with the height detection mechanism, arranged on the right side of the first analysis device and used for receiving the height of the field device;

the data identification equipment is also used for sending out a height mismatch signal when the height of the received field equipment is not within a preset height range, and the data identification equipment is also used for sending out a height matching signal when the height of the received field equipment is within the preset height range.

6. The manipulation reduction system for application customization data processing according to claim 5, further comprising:

the adjustable base is arranged at the bottom of the first analysis equipment and used for adjusting the height from the bottom of the first analysis equipment to the bottom of the first analysis equipment based on the received height control signal.

7. The manipulation reduction system for application customization data processing of claim 6, wherein:

the adjustable base is connected with the data identification device and used for adjusting until a height matching signal is received when the height mismatching signal is received, and the data identification device and the first analysis device are located on the same printed circuit board.

8. The manipulation reduction system for application customization data processing according to claim 7, further comprising:

and the direct current brushless motor is arranged near the second analytical equipment and used for providing assistance for the adjustment of the adjustable base.

9. The manipulation reduction system for application customization data processing of claim 8, wherein:

the first analysis device, the second analysis device and the data identification device share the same IIC control bus to receive control instructions of the IIC control bus.

10. The manipulation reduction system for application customization data processing of claim 9, further comprising:

and the TF storage mechanism is used for respectively providing operation configuration data for the first analysis equipment, the second analysis equipment and the data identification equipment.

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