CN114979476A - All-in-one high-speed shooting instrument interaction method and system and shooting terminal - Google Patents

Abstract

The invention provides an all-in-one high-speed shooting instrument interaction method, a system and a shooting terminal thereof, wherein the method comprises the following steps: collecting information of a connection shooting terminal device, matching the information with local information and providing matching information; selecting a corresponding camera driving unit to start shooting according to the matching information; and encrypting and exporting the shooting information. Through the equipment information who connects earlier and shoot the terminal, and match with local information, and provide corresponding matching information, according to the information of matching, the user can select the camera drive unit that corresponds, and start the camera that corresponds and shoot, the information of shooing is through encrypting and deriving, can improve the demand that the high appearance of shooing adapts to multiple scene greatly, automatic matching external equipment, provide the automated processing function, and start shooting information and encrypt and derive according to the user selection, realize the automatic function matching of multi-functional high appearance of shooing, shoot and the integration output of encryption.

Description

All-in-one high-speed shooting instrument interaction method and system and shooting terminal

Technical Field

The invention relates to an all-in-one high-speed shooting instrument interaction method, a system and a shooting terminal thereof.

Background

With the advent of the intelligent era, the high-speed shooting instrument is applied in more and more fields, and relates to various aspects of work and life. The requirements for high-speed cameras in the market at present are changed from simple shooting and storage to intelligent identification, image processing, character identification, page editing, data processing, output in various formats and the like in a complex environment. It is necessary to perform a series of processing on the captured image,

meanwhile, with the development and progress of paperless office, business handling in window units is almost required to be electronized, and a traditional scanner or a simple high-speed shooting instrument is basically used for scanning images at present. However, as various kinds of certificate information are updated, a large number of certificate information of other carriers, such as an IC card, fingerprint information, and an RF module, appear in business. The traditional equipment is difficult to meet new requirements which continuously appear in terms of functions, even if equipment integrating the second-generation certificate module is arranged, the application requirements of a user are difficult to meet completely and quickly, and a method for flexibly configuring the functional module according to the requirements of the user is unavailable.

The prior integrated equipment can not complete all functions of imaging data acquisition, second-generation ID card reading, one-dimensional or two-dimensional code reading, face comparison, handwritten signature, service evaluation, on-site photo acquisition, information display and voice prompt.

The problem that the existing high-speed photographing instrument is single in structure and function and inconvenient to use is urgently to be solved in the field.

Disclosure of Invention

The invention aims to provide an all-in-one high-speed shooting instrument interaction method, a system and a shooting terminal thereof, which aim to solve the problem that the existing high-speed shooting instrument is single in structure and function and inconvenient to use, and is a problem to be solved in the field.

In order to solve the technical problem, the invention provides an all-in-one high-speed shooting instrument interaction method, which comprises the following steps:

collecting information of a connecting shooting terminal device, matching the information with local information, and providing matching information;

selecting a corresponding camera driving unit to start shooting according to the matching information;

and encrypting and exporting the shooting information.

The method comprises the steps of acquiring information of a connection shooting terminal device, matching the information with local information and providing matching information, wherein the steps also comprise the steps before;

built-in power transmission distribution induction device, and

and the electric energy screenshot sensing unit is used for preventing data input transmission interference.

Wherein, the collecting and connecting shooting terminal device information is matched with the local device information to provide matching information, in the process, the matching information comprises at least one of the following information,

collecting imaging data;

shooting and collecting paper documents;

collecting an environment image;

collecting other certificates and IC cards besides the ID card;

OCR acquisition;

collecting pictures and characters;

an authentication verification device;

reading the second-generation identity card;

one-dimensional or two-dimensional code reading;

comparing human faces;

hand-written signature;

service evaluation;

collecting a field photo;

and (6) voice prompt.

Selecting a corresponding camera driving unit to start shooting according to the matching information; the image pickup drive unit to be selected includes at least one of:

the first camera driving unit is used for driving the main camera fixing piece of the shooting terminal;

the second camera driving unit is used for driving the shooting terminal auxiliary camera fixing piece;

and the third camera driving unit is used for driving the main camera fixing piece and the auxiliary camera fixing piece of the shooting terminal to shoot, assemble and merge simultaneously.

The shooting information is encrypted and exported, and the step of encrypting the shooting information comprises the step of encrypting data of the shooting information according to user setting;

and exporting the shooting information after the data encryption.

According to another aspect of the present invention, the present invention further provides an all-in-one high-speed scanner interaction system, which uses the above all-in-one high-speed scanner interaction method, and is characterized in that; the method comprises the following steps:

the equipment identification module is configured to collect information of the connected shooting terminal equipment, match the information with local equipment information and provide matching information;

the camera driving module is configured to select a corresponding camera driving unit to start shooting according to the matching information;

and the data encryption and export management module is configured to encrypt and export the shooting information.

Wherein, still include:

a power supply module configured to include

The electric energy transmission distribution induction device is used for distributing a power supply of the shooting terminal of the all-in-one high-speed shooting instrument.

And the electric energy screenshot sensing unit is used for preventing data input transmission interference.

Wherein the camera driving module comprises a camera driving module,

the first camera driving unit is used for driving the main camera fixing piece of the shooting terminal;

the second camera driving unit is used for driving the shooting terminal auxiliary camera fixing piece;

and the third camera driving unit is used for driving the main camera fixing piece and the auxiliary camera fixing piece of the shooting terminal to shoot, assemble and merge simultaneously.

Wherein, the data encryption export management module comprises:

the encryption unit is used for encrypting data of the shooting information according to user setting;

and a derivation unit configured to derive the data-encrypted shooting information.

According to another aspect of the invention, the invention further provides a shooting terminal connected with the all-in-one high-speed shooting instrument, wherein the shooting terminal is connected with any one of the all-in-one high-speed shooting instrument interaction systems.

Compared with the prior art, the invention has the beneficial effects that:

the invention provides an all-in-one high-speed shooting instrument interaction method, a system and a shooting terminal thereof, wherein the method comprises the following steps: collecting information of a connection shooting terminal device, matching the information with local information and providing matching information; selecting a corresponding camera driving unit to start shooting according to the matching information; and encrypting and exporting the shooting information. Through the equipment information who connects earlier and shoot the terminal, and match with local information, and provide corresponding matching information, according to the information of matching, the user can select the camera drive unit that corresponds, and start the camera that corresponds and shoot, the information of shooing is through encrypting and deriving, can improve the demand that the high appearance of shooing adapts to multiple scene greatly, automatic matching external equipment, provide the automated processing function, and start shooting information and encrypt and derive according to the user selection, realize the automatic function matching of multi-functional high appearance of shooing, shoot and the integration output of encryption.

Drawings

FIG. 1 is a flow chart of an interaction method of an all-in-one high-speed shooting instrument according to the present invention.

FIG. 2 is a block diagram schematically illustrating the structure of an all-in-one high-speed camera interactive system.

Detailed Description

The following detailed description of embodiments of the invention, but the invention can be practiced in many different ways, as defined and covered by the claims.

As shown in fig. 1, the present invention provides an all-in-one high-speed shooting instrument interaction method, which includes:

acquiring information of a connection shooting terminal device, matching the information with local information, and providing matching information;

selecting a corresponding camera driving unit to start shooting according to the matching information;

and step three, encrypting and exporting the shooting information.

Through the equipment information who connects earlier and shoot the terminal, and match with local information, and provide corresponding matching information, according to the information of matching, the user can select the camera drive unit that corresponds, and start the camera that corresponds and shoot, the information of shooing is through encrypting and deriving, can improve the demand that the high appearance of shooing adapts to multiple scene greatly, automatic matching external equipment, provide the automated processing function, and start shooting information and encrypt and derive according to the user selection, realize the automatic function matching of multi-functional high appearance of shooing, shoot and the integration output of encryption.

Specifically, the all-in-one high-speed shooting instrument can be realized by combining the following modules, such as a power supply module, an instrument and equipment identification module, a CPU main control module, a camera driving module, a data input and output interaction module, a collected data information storage management module and a data encryption export management module. The embodiment is only an exemplary embodiment, and other apparatuses capable of implementing the method of the present invention also belong to the protection scope of the present patent, and are not described herein again.

The power module can include electric energy screenshot induction unit, electric energy transmission distribution induction system and electric energy storage device, and electric energy storage device and bus power electric connection, and electric energy transmission distribution induction system respectively with electric energy storage device and bus power electric connection for the power of the high appearance shooting terminal of the distribution needs unification more. The electric energy screenshot sensing unit comprises a USB power supply sensing unit connected with a USB power supply interface, a round hole external power supply sensing unit and an electric energy storage device sensing unit, and data input and transmission interference is prevented.

The power supply module is internally provided with an electric energy transmission distribution induction device, a round hole is preferably externally connected with a power supply, a USB power supply module with a USB power supply interface is selected, and then an electric energy storage device is selected; the electric energy storage device ejects information according to the actual system after the shooting terminal, and a user selects whether to charge or not after the round hole external power supply or the USB power supply of the USB power supply interface is switched on.

The all-in-one high-speed shooting instrument interaction system comprises an instrument equipment identification module, a shooting terminal equipment, a shooting scanning all-in-one machine, a scanning all-in-one machine and a scanning all-in-one machine, wherein the instrument equipment identification module can select at least five types of identification information; the system comprises all or part of functions of environmental image acquisition, acquisition of other certificates and IC cards outside the ID card, OCR acquisition, image character acquisition, authentication verification device, second-generation ID card reading, one-dimensional or two-dimensional code reading, face comparison, handwritten signature, service evaluation, field photo acquisition, information display and voice prompt.

The system comprises an imaging data acquisition unit, a paper document shooting acquisition unit, an environment image acquisition unit, an ID card and other certificates and IC card acquisition unit, an OCR acquisition unit and a picture and character acquisition unit, wherein the user can also switch cutting and processing modes, perform document fuzzy detection/enhancement processing on cut images of documents, classify the fuzzy detected/enhanced images of the documents and set corresponding processing.

The CPU main control module controls other modules under the same network through a communication interface; the wireless communication module connects the shooting terminal CPU modules to realize scanning control; optionally, the CPU master control module is respectively connected with the USB interface output module and the camera driving module; the camera driving module is connected with the camera.

In addition, the camera driving module comprises a first camera driving unit, a second camera driving unit and a third camera driving unit; the first camera driving unit is used for leveling a leveling module of the lower transverse plate, namely a main camera fixing part of the shooting terminal; the second camera driving unit is used for shooting the terminal auxiliary camera fixing piece; and the third camera driving unit is used for shooting the main camera fixing piece and the auxiliary camera fixing piece of the terminal, simultaneously shooting, assembling and combining, and suggesting that the user can select the camera fixing pieces completely.

And the data input and output interaction module is installed in a corresponding running environment, i.e. jdk1.8, more than mysql5.7 and more than Tomcat 8. Then, the dzda application is deployed to a corresponding place conveniently and quickly, and the application is logged in after an application address is input by using an interface or a browser; taking a picture, converting the picture into an electronic file, and uploading the electronic file to a server for storage; bar code identification and identification card identification.

The collected data information storage management module can be used for hierarchical management of data types; when the label of the object does not exist, outputting multi-modal output data for acquiring the label of the object; and analyzing the response of the user to the multi-mode output data to acquire the label of the object. The user can actively set folder information, input an encrypted digital signature for looking up encryption and input an encrypted English digital combined signature for modifying authority encryption, the acquired data information is directly stored in a D disc all-in-one high-speed shooting instrument interaction space container for storage encryption backup, and the all-in-one high-speed shooting instrument interaction space container performs user data analysis on the user data information to obtain key information of the target user; encrypting the key information to obtain encrypted key information; and storing the encrypted key information. The information collected by the all-in-one high-speed shooting instrument is legally collected according to procedures specified by legal specifications, is selected for use according to the user, and cannot be used for invading the personal privacy of the user.

The data encryption export management module can enable a user to receive an export request sent by the first encryption unit when exporting the scanning information, wherein the export request comprises a digital signature of an encryption machine, and a response message corresponding to the export request is generated and copied under the condition that a verification result is yes; if a user needs to check the acquired data information on other computers, the user needs to input the digital signature of the encryption machine for reference; if a user needs to check and modify the acquired data information on other computers, the digital signature of the encryption machine needs to be input for looking up, modification click storage is improved, and the encrypted English digital combined signature is input, so that the modified information can be stored.

In addition, in one embodiment, step 1 may be preceded by;

the device comprises a built-in electric energy transmission and distribution induction device and an electric energy screenshot induction unit, wherein the built-in electric energy transmission and distribution induction device is used for distributing a power supply of the all-in-one high-speed shooting instrument shooting terminal, and the electric energy screenshot induction unit is used for preventing data input and transmission interference.

In addition, in one embodiment, the information of the connected shooting terminal equipment is collected and matched with the information of the local equipment to provide matching information, and in the process, the matching information comprises at least one of the following information, namely imaging data collection, paper document shooting collection and environment image collection; the method comprises the steps of collecting other certificates and IC cards besides the ID card, OCR (optical character recognition), collecting picture characters, authenticating and verifying a device, recognizing and reading a second-generation ID card, recognizing and reading a one-dimensional or two-dimensional code, comparing human faces, signing by handwriting, evaluating services, collecting field photos and prompting by voice.

In addition, in one embodiment, according to the matching information, the corresponding camera driving unit is selected to start shooting; the image pickup drive unit to be selected includes at least one of: the first camera driving unit is used for driving the main camera fixing piece of the shooting terminal; the second camera driving unit is used for driving the shooting terminal auxiliary camera fixing piece; and the third camera driving unit is used for driving the main camera fixing piece and the auxiliary camera fixing piece of the shooting terminal to shoot, assemble and merge simultaneously.

In addition, in one embodiment, the shooting information is encrypted and exported, and the step of encrypting the shooting information comprises the steps of encrypting the data of the shooting information according to the setting of a user; and exporting the shooting information after the data encryption.

As shown in fig. 2, according to another aspect of the present invention, the present invention further provides an all-in-one high-speed scanner interaction system, which uses the above all-in-one high-speed scanner interaction method, including:

the equipment identification module is configured to collect information of the connected shooting terminal equipment, match the information with local equipment information and provide matching information;

the camera driving module is configured to select a corresponding camera driving unit to start shooting according to the matching information; number of

And the data encryption and export management module is configured to encrypt and export the shooting information.

Further comprising: the power module comprises an electric energy transmission distribution sensing device to distribute a power supply of the required all-in-one high-speed shooting instrument shooting terminal. And the electric energy screenshot sensing unit is used for preventing data input transmission interference.

The camera driving module comprises a first camera driving unit for driving a main camera fixing piece of the shooting terminal; the second camera driving unit is used for driving the shooting terminal auxiliary camera fixing piece; and the third camera driving unit is used for driving the main camera fixing piece and the auxiliary camera fixing piece of the shooting terminal to shoot, assemble and merge simultaneously.

The data encryption export management module comprises: the encryption unit is used for carrying out data encryption processing on the shooting information according to user setting; and a derivation unit configured to derive the data-encrypted shooting information.

For details, reference is made to the above-mentioned embodiment of the all-in-one high-speed shooting instrument interaction method, and details are not described herein again.

The embodiment of the invention also provides a shooting terminal connected with the all-in-one high-speed shooting instrument, and the shooting terminal is connected with the all-in-one high-speed shooting instrument interactive system.

The all-in-one high-speed shooting instrument interaction system, the use method thereof and the shooting terminal equipment are novel integrated solutions which integrate hardware modules required for business handling and provide for window office. The integrated terminal integrated equipment provides all functions of imaging data acquisition, second-generation ID card identification and reading, one-dimensional or two-dimensional code identification and reading, face comparison, handwritten signature, service evaluation, field photo acquisition, information display and voice prompt, and the like, and really realizes 'one-machine-through-handling' at the windows of management service halls of various industries. Terminal integration equipment is in the use of each trade management window, can effectively solve each hardware equipment independent installation under traditional office mode, and it is big to occupy office space, and the connecting wire is numerous and diverse, and function coordination is poor scheduling problem between the equipment can improve window counter and office table face neatly degree by a wide margin, promotes the whole image of hall of doing affairs.

The power module of the all-in-one high-speed shooting instrument interaction system effectively distinguishes that the shooting terminal equipment power and the information input share data line device result in the pause or the loss of the information input card, the instrument equipment identification module uses the evading equipment for debugging to result in slow business handling risk, and the acquired data information storage management module and the data encryption derivation management module use encryption control to ensure the acquired information safety.

The W6 binocular camera setting is used, pictures of the main camera and the auxiliary camera are previewed in shooting of the equipment, the equipment option of the main camera is switched to the auxiliary camera in the right setting area, and the auxiliary camera can be selected to be combined with the main picture and then click to take pictures. The imaging speed of the photo can also be in focus because of the principle that the two cameras simultaneously participate in the focusing to achieve the triangular distance measurement with the object to be focused, so that the distance testing time is shortened, the focusing speed is improved, and the information input definition is guaranteed.

The multifunctional electronic sign screen is provided with an IC card reader, a Bluetooth audio receiver and a plurality of USB interfaces, and can be conveniently applied to various fee deduction (such as parking fee collection) charging, value storage, inquiry and other intelligent card management application systems of industry and commerce, telecommunication, postal service, tax, banking, insurance, medical treatment, conference sign-in, internet bar management, gas stations, parking lot management and the like.

The multifunctional electronic sign screen is provided with an SIM card slot for using a subscriber identity card, storing data (controlling access of various data) and completing the whole process of customer identity authentication and customer information encryption algorithm under the safety condition (personal identity number PIN and authentication key Ki are correct) to ensure the safety of the used information.

Of course, in solving the technical problem of single structure and function of the all-in-one high-speed scanner, the interaction method of the all-in-one high-speed scanner may further include,

a step of passing the photographing information through an encryption and uploading blockchain network, and

filtering and screening the pictures on the block chain network by a digital picture block chain filtering system, and determining the downloading of the required digital pictures;

and carrying out uniqueness marking on the hash value of the downloaded digital image, and marking transaction information which is subjected to digital twin synchronization with the blockchain network.

A digital image blockchain filtering system may be a system for filtering digital images stored on a blockchain network to locate one or more particular digital images from a corpus of digital images.

Digital image blockchain filtering systems may be used for users to search blockchain databases for events, different locations of events, different times, different angles, different image qualities, etc., photos about people, objects, etc. For example, blockchain database indexing, searching, filtering, manipulation, and control may be improved by allowing a user to search images based on location-specific rules and object-specific rules to exclude unrelated photos, and to separate related photos that fit the user's particular needs.

That is, the digital image blockchain filtering system may provide a blockchain filtering tool to allow indexing and searching of digital images stored on a blockchain based on contextual information of the digital images for location-specific rules, object-specific rules, time-specific rules.

The corresponding digital pictures are retrieved and screened from the digital picture block chain filtering system to the block chain network, so that the all-in-one high-speed shooting instrument can adapt to downloading of various scene pictures, and the uniqueness and the accuracy of the digital pictures are ensured and the working efficiency of the all-in-one high-speed shooting instrument is ensured by the anti-tampering of the block chain network.

The digital image block chain filtering system may use a machine learning vision recognition engine and facial recognition software to perform one or more pre-filters to eliminate irrelevant photos based on user search criteria (e.g., by eliminating irrelevant photos based on tagged keywords of the person of interest).

Examples of digital images may be digital photographs, still screen shots of digital video, screen shots of live digital transmissions, or any other digital data file that may be captured by an electronic capture device.

The digital twin is a simulation process integrating multidisciplinary, multi-physical quantity, multi-scale and multi-probability by fully utilizing data such as a physical model, sensor updating, operation history and the like, and mapping is completed in a virtual space so as to reflect another corresponding stored full life cycle process. Digital twinning is an beyond-realistic concept that can be viewed as a digital mapping system of one or more important, interdependent systems.

The digital twin is a generally-adapted theoretical technical system, can be applied in various fields, and is more applied in the fields of product design, product manufacturing, medical analysis, engineering construction and the like.

The digital twinning technology can make the digital image information downloaded from the blockchain network by the all-in-one high-speed shooting instrument consistent with the information on the blockchain network, so as to ensure the accuracy of the data information, and facilitate the application of the uniqueness and the accuracy of the subsequent digital image on the all-in-one high-speed shooting instrument. The function of this all-in-one high-speed shooting instrument is improved, and work efficiency is improved.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An all-in-one high-speed shooting instrument interaction method is characterized by comprising the following steps:

collecting information of a connecting shooting terminal device, matching the information with local information, and providing matching information;

selecting a corresponding camera driving unit to start shooting according to the matching information;

and encrypting and exporting the shooting information.

2. The all-in-one high-speed camera interaction method according to claim 1,

the collecting and connecting shooting terminal equipment information is matched with the local machine information to provide matching information, and the steps also comprise the steps before;

built-in power transmission distribution induction device, and

and the electric energy screenshot sensing unit is used for preventing data input and transmission interference.

3. The all-in-one high-speed camera interaction method according to claim 1, wherein the collecting and connecting shooting terminal device information is matched with the local device information to provide matching information, and in the process, the matching information comprises at least one of the following information,

collecting imaging data;

shooting and collecting paper documents;

collecting an environment image;

collecting other certificates and IC cards besides the ID card;

OCR acquisition;

collecting pictures and characters;

an authentication verification device;

reading the second-generation identity card;

one-dimensional or two-dimensional code reading;

comparing human faces;

hand-written signature;

service evaluation;

collecting a field photo;

and (6) voice prompt.

4. The all-in-one high-speed camera interaction method according to claim 1,

selecting a corresponding camera driving unit to start shooting according to the matching information; the image pickup drive unit to be selected includes at least one of:

the first camera driving unit is used for driving the main camera fixing piece of the shooting terminal;

the second camera driving unit is used for driving the shooting terminal auxiliary camera fixing piece;

and the third camera driving unit is used for driving the main camera fixing piece and the auxiliary camera fixing piece of the shooting terminal to shoot, assemble and merge simultaneously.

5. The all-in-one high-speed camera interaction method according to claim 1, wherein the step of encrypting and deriving the shooting information comprises,

according to user settings, carrying out data encryption processing on the shooting information;

and exporting the shooting information after the data encryption.

6. An all-in-one high-speed scanner interaction system, which is characterized in that the all-in-one high-speed scanner interaction method according to claim 1-claim 4 is used; the method comprises the following steps:

the equipment identification module is configured to collect information of the shooting terminal equipment, match the information with local equipment information and provide matching information;

the camera driving module is configured to select a corresponding camera driving unit to start shooting according to the matching information;

and the data encryption and export management module is configured to encrypt and export the shooting information.

7. The all-in-one high-speed scanner interaction system according to claim 6, further comprising:

a power supply module configured to include

The electric energy transmission distribution induction device is used for distributing a power supply of the shooting terminal of the all-in-one high-speed shooting instrument.

And the electric energy screenshot sensing unit is used for preventing data input transmission interference.

8. The all-in-one high-speed camera interaction system according to claim 6, wherein the camera driving module comprises,

the first camera driving unit is used for driving the main camera fixing piece of the shooting terminal;

the second camera driving unit is used for driving the shooting terminal auxiliary camera fixing piece;

and the third camera driving unit is used for driving the main camera fixing piece and the auxiliary camera fixing piece of the shooting terminal to shoot, assemble and combine simultaneously.

9. The all-in-one high-speed camera interaction system according to claim 6, wherein the data encryption export management module comprises:

the encryption unit is used for carrying out data encryption processing on the shooting information according to user setting;

and a derivation unit configured to derive the data-encrypted shooting information.

10. A shooting terminal connected with an all-in-one high-speed shooting instrument, wherein the shooting terminal is connected with the all-in-one high-speed shooting instrument interaction system of any one of claims 6 to 9.

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