CN112837122A - Image batch production system and method - Google Patents

Abstract

The present application relates to the field of mass production of images, and in particular, to a system and a method for mass production of images, which includes: the user terminal includes: a request receiving module, configured to receive a request for placing an order in a user terminal; the ordering module is used for traversing each ordering component in an ordering page in the user terminal according to the ordering request, and performing asynchronous ordering processing according to ordering information in the ordering component to generate order information corresponding to the ordering information in each ordering component; the order submitting module is used for submitting all the generated order information to a payment system for payment; the studio client includes: a photo building server group; a movie building main server; the factory client includes: the factory main server is used for assigning a factory to carry out processing production according to the distributed image production task; the factory server group is used for assigning image production tasks to various factories. This application has the effect that promotes the production efficiency of image.

Description

Image batch production system and method

Technical Field

The present disclosure relates to the field of mass production of images, and more particularly, to a system and method for mass production of images.

Background

The image is a substance reappearance of human visual perception, the image can be acquired by optical equipment such as a camera, a mirror, a telescope, a microscope and the like, and can also be considered as creation such as manual drawing images and the like, the image is also a visual symbol, a visual language for communication between people can be developed through the specially designed image, and a large number of plane drawing, three-dimensional sculpture and buildings in world art can be known.

Most of the image production of the related art is single production, that is, after a photo is shot, the single photo image is processed, which is time-consuming and inefficient.

In view of the above-mentioned related art, the inventors consider that there is a drawback that the image production efficiency is low.

Disclosure of Invention

In order to improve the production efficiency of the images, the application provides an image batch production system and method.

In a first aspect, the present application provides an image batch production system, which adopts the following technical solution:

a video batch production system comprises a user terminal, a studio client and a factory client, wherein the studio client is respectively communicated with the user terminal and the factory client; wherein,

the user terminal includes:

a request receiving module, configured to receive a request for placing an order in a user terminal;

the ordering module is used for traversing each ordering component in an ordering page in the user terminal according to the ordering request, and performing asynchronous ordering processing according to ordering information in the ordering component to generate order information corresponding to the ordering information in each ordering component;

the order submitting module is used for submitting all the generated order information to a payment system for payment;

the studio client includes:

the studio server group is used for processing all order information in real time;

the main movie building server is used for distributing image production tasks according to all the order information;

the factory client includes:

the factory main server is used for assigning a factory to carry out processing production according to the distributed image production task;

the factory server group is used for assigning image production tasks to various factories.

By adopting the technical scheme, the order placing request is received through the request receiving module, each order placing component in an order placing page is traversed through the order placing module according to the order placing request, the order placing information is processed asynchronously, then order information corresponding to the order placing information can be generated, the cost is paid through the order submitting module according to the generated order information, after the cost is paid, the order information is processed in real time through the photo building server group, the image production tasks are distributed through the photo building main server according to the order information, and the information is sent to the factory server group through the factory main server according to the distributed image production tasks, so that a factory is assigned to carry out processing production; through the setting of this system, compare in correlation technique and carry out single processing to the image, can promote the production efficiency of image.

Optionally, only data synchronous reading and storage are performed between the movie building main server and the factory main server, and a traffic trend instruction of the server group is issued.

By adopting the technical scheme, the main server of the movie building and the main service device of the factory are only synchronously read and stored, and the flow trend instruction of the server group is issued, so that the connection between the main server of the movie building and the main server of the factory is facilitated.

Optionally, the studio server group includes a studio cloud server for uploading files and a studio cloud server for storing data.

Through adopting above-mentioned technical scheme, through setting up the movie house server group into a plurality of movie house high in the clouds server, and then, adopt movie house high in the clouds server can enough upload the file, also can save data, and the person of facilitating the use uses.

Optionally, the factory server group includes a factory cloud server for downloading the file and a factory cloud server for uploading the file.

Through adopting above-mentioned technical scheme, through setting up factory server group into a plurality of factory cloud end servers, and then, adopt factory cloud end server can enough download the file, also can upload the file, and the person of facilitating the use uses.

Optionally, when the image is manufactured in each factory, the manufactured image is fed back to the studio client through the factory client, and if the manufactured image is not satisfied by the staff of the studio client, the unsatisfactory information is sent to the factory client through the studio client, so that the staff of the factory client performs rework.

By adopting the technical scheme, when the images are manufactured and finished in each factory, the finished images can be fed back to the studio client through the factory client, wherein when workers at the studio client are unsatisfied with the finished images, the unsatisfied information can be sent to the factory client through the studio client, so that the workers at the factory client can perform rework processing, and further, the quality of the images can be ensured.

Optionally, the system further comprises a logistics transportation terminal for inputting logistics information and arranging a transportation vehicle to transport the mass-produced images from the factory to a studio.

Through adopting above-mentioned technical scheme, through setting up commodity circulation transportation terminal, wherein input logistics information is convenient for transport the image of accomplishing the preparation.

Optionally, the user terminal further includes:

the ordering component adding module is used for detecting an ordering component adding instruction in an ordering page, and adding a single ordering component on the ordering page or adding ordering components in batches according to the ordering component adding instruction;

wherein, the ordering module comprises:

the component traversal unit is used for circularly traversing the order placement components in the order placement page and acquiring order placement information and the number of the order placement information in the traversed order placement components;

the interface calling unit is used for calling the order placing interface aiming at the traversed order placing component and transmitting order placing information in the traversed order placing component into the order placing interface;

the order processing unit is used for carrying out order placing processing according to the transmitted order placing information through the order placing interface and returning an order placing result, wherein the order placing result comprises order placing success and order placing failure, and when the order placing result is the order placing success, the order placing result comprises order information generated according to the order placing information;

the result processing unit is used for storing the order placing results returned by each order placing interface in the order system into an order array, and when the order placing results stored in the order array are consistent with the number of the order placing information, the asynchronous order placing processing is ended;

the order system comprises an order system and an order issuing interface, wherein a batch order issuing identifier is added in the order issuing interface in the order system and used for marking an order issuing request received by the order system as a batch order issuing request.

By adopting the technical scheme, the adding instruction of the order placing component in the order placing page can be detected by the order placing component adding module, a single order placing component can be added on the order placing page according to the order placing component adding instruction, or a batch of order placing components can be added, the order placing component in the order placing page can be traversed by the component traversing unit, order placing information in the order placing component can be obtained, the traversed order placing component can be transferred by the interface calling unit to call the order placing information to be transmitted into the order placing interface, order placing processing can be carried out on the order information by the order processing unit, a processing result is obtained, further, when the order placing result is order placing success, the order placing information can be generated into the order information, the order placing result can be stored into the order array by the result processing unit, and when the order placing result in the order array is consistent with the number of the order placing information, and ending the asynchronous order placing processing, adding a batch order placing identifier in an order placing interface to mark the order placing request as the batch order placing request, and further managing the batch order placing.

Optionally, the ordering module further includes:

the interface calling unit calls the order placement interface aiming at the order placement component with the effective order placement information, and the order placement information in the order placement component with the effective order placement information is transmitted into the order placement interface.

By adopting the technical scheme, the validity of the order placing information can be verified by arranging the information verification unit, the order placing component with the effective order placing information is called through the interface calling unit, the order placing information in the order placing component with the effective order placing information is introduced into the order placing interface through the order placing interface, and then the order placing information is conveniently and effectively introduced.

In a second aspect, the present application provides a method for batch production of images, which adopts the following technical scheme:

a method for mass production of images, which employs the system of the first aspect, comprising:

ordering operation is carried out on the basis of an ordering request program aiming at image batch production, each ordering component in an ordering page is traversed according to an ordering request, asynchronous ordering processing is carried out according to ordering information in the ordering components, and order information corresponding to the ordering information in each ordering component is generated;

paying the cost of the mass-produced images based on a cost payment program according to the generated order information;

processing the order information in real time based on an order processing tool, and distributing an image production task based on the order information;

and assigning factories to process and produce according to the distributed image production tasks.

By adopting the technical scheme, according to an order placing request, an order placing program is adopted to traverse each order placing component in an order placing page and asynchronously process order placing information, so that order information corresponding to the order placing information can be generated, the payment is made according to the generated order information, after the payment is completed, the order information is processed in real time, image production tasks are distributed according to the order information, and factories are assigned to carry out processing production according to the distributed image production tasks; compared with the related technology of performing single processing on the image, the method can improve the production efficiency of the image.

In a third aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer-readable storage medium, in which a computer program is stored, which, when loaded and executed by a processor, carries out the method of the second aspect.

By adopting the technical scheme, the computer program is generated by the method of the second aspect, and the generated computer program is stored in the storage medium to be loaded and executed by the processor, so that the computer program can be conveniently read and stored by the computer readable storage medium, and is convenient for users to use.

In summary, the present application includes at least one of the following beneficial technical effects:

1. receiving an order placing request through a request receiving module, traversing each order placing component in an order placing page through an order placing module according to the order placing request, performing asynchronous processing on order placing information, further generating order information corresponding to the order placing information, paying cost according to the generated order information through an order submitting module, processing the order information in real time through a studio server group after the cost payment is completed, distributing image production tasks through a studio master server according to the order information, sending messages to a factory server group through the factory master server according to the distributed image production tasks, and further assigning factories to perform processing production; through the arrangement of the system, compared with the related technology for carrying out single processing on the image, the production efficiency of the image can be improved;

2. the order placing module can detect an adding instruction of an order placing component in an order placing page, add a single order placing component on the order placing page according to the order placing component adding instruction, or add batch order placing components, traverse the order placing component in the order placing page through the component traversing module and acquire order placing information in the order placing component, call the order placing interface to call the order placing information to be transmitted to the order placing interface through the interface calling module, place order processing the order information through the order processing module and acquire a processing result, further, when the order placing result is order placing success, the order placing information can be generated into order information, the order placing result can be stored into an order array through the result processing module, and when the order placing result in the order array is consistent with the number of the order placing information, asynchronous order placing processing is finished, in addition, a batch ordering identifier can be added to the ordering interface to mark the ordering request as the batch ordering request, so that the management of batch ordering is facilitated.

Drawings

Fig. 1 is a system framework diagram of an image batch production system according to the present application.

Fig. 2 is a block diagram of a user terminal of the present application.

Fig. 3 is a flowchart of a method of image batch production according to the present application.

Description of reference numerals: 100. a user terminal; 101. a request receiving module; 102. a ordering module; 103. an order submission module; 104. a lower order component adding module; 200. a studio client; 201. a movie building main server; 202. a photo building server group; 300. a factory client; 301. a factory master server; 302. a group of factory servers; 400. and (5) logistics transportation terminals.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is further described in detail below with reference to the accompanying drawings X-X and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The embodiment of the application discloses an image batch production system. Referring to fig. 1, the system includes a user terminal 100, a studio client 200 and a factory client 300, where the studio client 200 communicates with the user terminal 100 and the factory client 300 respectively, and preferably, the communication mode may be wired communication or wireless communication, in this embodiment, the user terminal 100 is used for a user to place an order, the studio client 200 is used for receiving a user order and allocating an image production task according to the user order, and the factory client 300 is used for processing and producing an image according to the allocated image production task.

Referring to fig. 2, in this embodiment, the user terminal 100 may be set as APP software having an ordering function, for example, a treasure making open platform, a civil market platform (payroll), an applet platform, a marketing plug-in, and the like, specifically, the user terminal 100 may include a plurality of functional modules, and further, a plurality of functional modules are used for a user to operate, in this embodiment, the plurality of functional modules include a request receiving module 101, an ordering module 102, and an order submitting module 103, and the ordering module 102 is respectively in communication with the request receiving module 101 and the order submitting module 103, the request receiving module 101 may receive an ordering request in the user terminal 100, the ordering module 102 may traverse each ordering component in an ordering page in the user terminal 100 and perform asynchronous ordering processing according to ordering information in the ordering component to generate order information corresponding to the ordering information in each ordering component, the order submitting module 103 may submit all generated order information to a payment system for payment, where the payment method in this embodiment includes account balance, payment treasure, and wechat payment.

In this embodiment, the user terminal 100 may further include an ordering component adding module 104, a component traversing unit, an interface calling unit, an order processing unit, and a result processing unit, and specifically, the component traversing unit, the interface calling unit, the order processing unit, and the result processing unit are disposed in the ordering module.

Furthermore, by using the order component adding module, the order component adding instruction in the order page can be detected, and a single order component is added on the order page according to the order component adding instruction, or the order components are added in batch, by using the component traversing unit, the order components in the order page can be traversed, and order information and the number of the order information in the traversed order components can be obtained, by using the interface calling unit, the order interface can be called for the traversed order components, and order information in the traversed order components is transferred into the order interface, by using the order processing unit, order processing can be performed according to the transferred order information through the order interface, and an order result is returned, in this embodiment, the order result can include order success and order failure, and when the order is successful, the order result includes order information generated according to the order information, by adopting the result processing unit, the order placing results returned by each order placing interface in the order system can be stored in the order array, and when the order placing results stored in the order array are consistent with the number of the order placing information, the asynchronous order placing processing is ended, wherein batch order placing marks are added in the order placing interfaces in the order system, and the batch order placing marks are used for marking the order placing requests received by the order system as batch order placing requests.

In this embodiment, the ordering module 102 may further include an information verification unit, and further, by using the information verification unit, validity of ordering information obtained from the traversed ordering component may be verified, and an ordering interface is invoked to transfer ordering information in the ordering component in which the ordering information is valid into the ordering interface for the ordering component in which the ordering information is valid, where the information verification unit is respectively in communication with the component traversal unit and the interface calling unit, and the order processing unit is respectively in communication with the interface calling unit and the result processing unit.

In this embodiment, the studio client 200 includes the studio main server 201 and the studio server group 202, and the studio server group 202 includes a plurality of studio cloud servers, and specifically, the plurality of studio cloud servers communicate with the studio main server 201 respectively, preferably, the embodiment takes four studio cloud servers as an example, two studio cloud servers for uploading files, a studio cloud server for storing data and other types of studio cloud servers, respectively, and other types of studio cloud servers at this place can play a standby effect.

In this embodiment, the factory client 300 includes a factory main server 301 and a factory server group 302, and the factory server group 302 includes a plurality of factory cloud servers, and specifically, the plurality of factory cloud servers are respectively in communication with the factory main server 301, preferably, in this embodiment, five factory cloud servers are taken as an example, and are respectively two factory cloud servers for downloading files, two factory cloud servers for uploading files, and one other type of factory cloud server, and the other type of factory cloud server here can play a standby role.

Preferably, in this embodiment, the real-time synchronous data sharing is that only data synchronous reading and storing are performed, and a traffic trend instruction of the server group is issued.

In this embodiment, in order to facilitate acceptance of the image, furthermore, when the image is produced in each factory, the produced image is fed back to the studio client 200 through the factory client 300, so that if the worker of the studio client 200 is unsatisfied with the produced image, the dissatisfied information is sent to the factory client 300 through the studio client 200, so that the worker of the studio client 300 performs rework processing, and the situation that the image sent to the client is unqualified can be avoided.

In this embodiment, the image batch production system may further include a logistics transportation terminal 400, and further, the staff may input logistics information on the logistics transportation terminal 400 to arrange that the transportation vehicle transports the images after batch production from the factory to the studio, thereby facilitating the transportation of the images.

The implementation principle of the image batch production system in the embodiment of the application is as follows: the studio personnel receives the order placing request through the request receiving module 101, traverses each order placing component in the order placing page according to the order placing request through the order placing module 102, carries out asynchronous processing on the order placing information, further can generate order information corresponding to the order placing information, pays order fee through the order submitting module 103 according to the generated order information, carries out real-time processing on the order information through the studio server group 202 after the order fee payment is completed, distributes image production tasks through the studio master server 201 according to the order information, sends information to the factory server group 302 through the factory master server 301 according to the distributed image production tasks, and further assigns factories to carry out processing production; therefore, compared with the single processing of the image, the production efficiency of the image can be improved.

An embodiment of the present application discloses an image batch production method, referring to fig. 3, wherein the image batch production system of the embodiment is applied to the method, and the method includes:

and ordering operation is carried out on the basis of an ordering request program aiming at the image batch production, each ordering component in an ordering page is traversed according to the ordering request, asynchronous ordering processing is carried out according to ordering information in the ordering components, and order information corresponding to the ordering information in each ordering component is generated.

And paying the cost for the mass-produced images based on a cost payment program according to the generated order information.

And processing the order information in real time based on the order processing tool, and distributing an image production task based on the order information.

And assigning factories to process and produce according to the distributed image production tasks.

Since the method employs the above system, the specific operation flow is the same as that of the above embodiment, and thus, the detailed description thereof is omitted.

The embodiment of the application discloses a computer-readable storage medium, and the computer-readable storage medium stores a computer program, wherein when the computer program is executed by a processor, the image batch production method of the embodiment is adopted.

The computer program may be stored in a computer readable medium, the computer program includes computer program code, the computer program code may be in a source code form, an object code form, an executable file or some intermediate form, and the like, the computer readable medium includes any entity or device capable of carrying the computer program code, a recording medium, a usb disk, a removable hard disk, a magnetic disk, an optical disk, a computer memory, a Read Only Memory (ROM), a Random Access Memory (RAM), an electrical carrier signal, a telecommunication signal, a software distribution medium, and the like, and the computer readable medium includes but is not limited to the above components.

The image batch production method of the embodiment is stored in the computer-readable storage medium through the computer-readable storage medium, and is loaded and executed on the processor, so as to facilitate storage and application of the image batch production method.

The foregoing is a preferred embodiment of the present application and is not intended to limit the scope of the application in any way, and any features disclosed in this specification (including the abstract and drawings) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Claims (10)

1. The system for batch production of images is characterized by comprising a user terminal (100), a studio client (200) and a factory client (300), wherein the studio client (200) is respectively communicated with the user terminal (100) and the factory client (300); wherein,

the user terminal (100) comprises:

a request receiving module (101) for receiving a ordering request in a user terminal (100);

the ordering module (102) is used for traversing each ordering component in an ordering page in the user terminal (100) according to the ordering request, and performing asynchronous ordering processing according to ordering information in the ordering components to generate order information corresponding to the ordering information in each ordering component;

the order submitting module (103) is used for submitting all the generated order information to a payment system for payment;

the studio client (200) comprises:

the studio server group (202) is used for processing all order information in real time;

the main movie building server (201) is used for distributing image production tasks according to all the order information;

the plant client (300) comprises:

the factory main server (301) is used for assigning a factory to carry out processing production according to the distributed image production task;

the factory server group (302) is used for assigning image production tasks to various factories.

2. The system for mass production of images as claimed in claim 1, wherein the main movie server (201) and the main factory server (301) only perform synchronous data reading and storing and issue the flow direction command of the server group.

3. The system of claim 1, wherein the cloud group of studio servers (202) comprises a cloud server for uploading files and a cloud server for storing data.

4. The image batch production system of claim 1, wherein the factory server group (302) comprises a factory cloud server for downloading files and a factory cloud server for uploading files.

5. The system of claim 1, wherein when each factory creates a finished image, the finished image is fed back to the studio client (200) through the factory client (300), and if the staff member of the studio client (200) is not satisfied with the finished image, the unsatisfactory information is sent to the factory client (300) through the studio client (200) to allow the staff member of the factory client (300) to perform rework.

6. The image batch production system according to claim 1, further comprising a logistics transportation terminal (400) for inputting logistics information and arranging a transportation vehicle to transport the mass produced images from a factory to a studio.

7. The image batch production system according to claim 1, wherein the user terminal (100) further comprises:

the ordering component adding module (104) is used for detecting an ordering component adding instruction in an ordering page, and adding a single ordering component on the ordering page according to the ordering component adding instruction, or adding ordering components in batches;

wherein the ordering module (102) comprises:

the component traversal unit is used for circularly traversing the order placement components in the order placement page and acquiring order placement information and the number of the order placement information in the traversed order placement components;

the interface calling unit is used for calling the order placing interface aiming at the traversed order placing component and transmitting order placing information in the traversed order placing component into the order placing interface;

the order processing unit is used for carrying out order placing processing according to the transmitted order placing information through the order placing interface and returning an order placing result, wherein the order placing result comprises order placing success and order placing failure, and when the order placing result is the order placing success, the order placing result comprises order information generated according to the order placing information;

the result processing unit is used for storing the order placing results returned by each order placing interface in the order system into an order array, and when the order placing results stored in the order array are consistent with the number of the order placing information, the asynchronous order placing processing is ended;

the order system comprises an order system and an order issuing interface, wherein a batch order issuing identifier is added in the order issuing interface in the order system and used for marking an order issuing request received by the order system as a batch order issuing request.

8. The image batch production system of claim 7, wherein the ordering module (102) further comprises:

the interface calling unit calls the order placement interface aiming at the order placement component with the effective order placement information, and the order placement information in the order placement component with the effective order placement information is transmitted into the order placement interface.

9. A method for mass production of images, wherein the system of any one of claims 1 to 8 is applied, comprising:

ordering operation is carried out on the basis of an ordering request program aiming at image batch production, each ordering component in an ordering page is traversed according to an ordering request, asynchronous ordering processing is carried out according to ordering information in the ordering components, and order information corresponding to the ordering information in each ordering component is generated;

paying the cost of the mass-produced images based on a cost payment program according to the generated order information;

processing the order information in real time based on an order processing tool, and distributing an image production task based on the order information;

and assigning factories to process and produce according to the distributed image production tasks.

10. A computer-readable storage medium, in which a computer program is stored, which, when loaded and executed by a processor, carries out the method of claim 9.

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