CN113032598A - Image design visual transmission system based on big data - Google Patents

Abstract

The invention discloses an image design visual transmission system based on big data, comprising: the client is used for assisting a user in developing a related system structure and can be in butt joint with the data transmission server by simple parameter filling and function calling; and the design module is used for calling a design object image from the object database as a basis, calling corresponding design materials from the material database to design in the target object image and acquiring a corresponding design effect diagram. The invention can carry out visual design and transmission on images, can be used for field design and effect display, meets the daily design requirements of designers and design teams, adopts a multiple security encryption mechanism on big data transmission, can carry out manual configuration on file fragments at a sending end, adopts an instant forwarding strategy at a service end, namely, the service end receives file fragment information without integration and directly pushes the file fragment information to a receiving end, and carries out file transmission recording at the receiving end and file integration at the receiving end.

Description

Image design visual transmission system based on big data

Technical Field

The invention relates to the technical field of visual transmission, in particular to a visual transmission system based on image design of big data.

Background

Visual communication is communication between people in the form of "seeing" and is a way of expression and propagation through visual language. People in different regions, skin colors, ages, sexes and speaking different languages carry out information transmission, emotional communication and cultural communication through vision and media, visual observation and experience can cross the barriers of language obstruction, the barriers of different characters can be eliminated, and understanding and interaction can be obtained by means of visual consensus of pictures, images, patterns, drawings, cartography and drawings.

With the continuous development of science and technology in China, computer graphic image processing technology and visual transmission technology are also widely applied to various industries. At present, electronic games, film and television industries, art industries, advertising industries and art design industries in China all use computer graphic image technology to realize processing. The traditional two-dimensional plane design is gradually developed to the three-dimensional technology stereo at present, so that different modes and types of image images are presented for people. Therefore, under the background of social mediation and media popularization, people no longer satisfy the traditional simple presentation for the artistic aesthetic requirements of media forms, but pay attention to the overall sensory effect of visual transmission. By utilizing the planar optimization design and the design concept of alternating between virtual and real, the computer graphic image can be more three-dimensional. Therefore, it is necessary to design a visual communication system based on large data images.

Disclosure of Invention

Aiming at the situation and overcoming the defects of the prior art, the invention provides an image design visual transmission system based on big data, which can carry out visual design and transmission on images, can be used for field design and effect display, meets the daily design requirements of designers and design teams, adopts a multiple safety encryption mechanism in big data transmission, can carry out manual configuration on file fragments at a sending end, adopts an instant forwarding strategy at a service end, namely the service end receives the file fragment information without integration and directly pushes the file fragment information to a receiving end, and carries out file transmission recording at the service end, and carries out file integration at the receiving end.

In order to achieve the purpose, the invention provides the following technical scheme: a big data based image design visual communication system, comprising:

the data transmission server is used for storing and transmitting data;

the client is used for assisting a user in developing a related system structure, can be in butt joint with the data transmission server by performing simple parameter filling and function calling and is responsible for service data interaction;

the design module is used for calling a design object image from the object database as a basis, calling corresponding design materials from the material database to design in the target object image and acquiring a corresponding design effect diagram;

the object management module is used for managing the image information of the design object, and comprises the steps of inputting a new design object image into the object database, and editing, calling and classifying the design object image stored in the object database;

and the material management module is used for managing the design materials, including inputting new design materials into the material database, and editing, calling and classifying the design materials stored in the material database.

Preferably, the data transmission server includes:

the connection management module is used for being responsible for login verification of the client and information maintenance of the target queue;

the data storage module is used for providing different storage modes according to the server selection condition and respectively storing the different storage modes into the object database and the material database;

the big data transmission module is used for providing a service of big data related operation and ensuring the efficient and stable transmission of data;

and the message management module is used for carrying out data interaction with the client and selecting different processing strategies according to the actual service condition.

Preferably, the description file of the big data transmission module is an XML document, where the description file includes various information used in big data transmission, and includes:

the message node table is used for recording the overall situation of data transmission, and updating the message state in the corresponding data storage mode when the node information changes;

the attachment node table is used for recording information of a single attachment to which the message belongs, including data such as storage position size and the like, and updating the state of the message node when all attachments are uploaded or downloaded;

and the fragment node table is used for recording the information of the single fragment after the attachment fragmentation, including the information of the fragment length, the name, the state and the like. And when all the fragments are uploaded or downloaded, updating the attachment states corresponding to the fragments.

Preferably, the message management module includes:

the message receiving unit is used for sending a request to a corresponding client, analyzing the request message and converting the message into a format which can be identified by a system;

the message extraction unit is used for extracting the message from the storage medium and delivering the message to the message pushing unit;

and the message pushing unit is used for connecting with the client and sending the message to the client in an active pushing mode.

Preferably, the connection management module performs two steps of user name and password authentication and IP address authentication, and the authentication process includes:

1) the data security unit firstly reads basic information from the configuration file and carries out verification initialization;

2) a user sends connection information such as a user name and a password to a server side;

3) the server firstly verifies the IP logged in by the user;

4) then, matching and verifying a user name and a password sent by a user;

5) and finally, the server returns the verification result to the user.

Preferably, the design module further includes a preprocessing subunit, configured to preprocess the acquired design object image, eliminate noise influence on the design object image in the acquisition process, output the preprocessed design object image, and record the preprocessed design object image in the object database.

Preferably, the preprocessing subunit preprocesses the acquired design object image, and includes:

assuming that the noise on the image is additive, uncorrelated, and has a mean value of zero, a noisy digital image includes the original image signal f (x, y) and the noise n (x, y), i.e.: g (x, y) = f (x, y) + n (x, y), and the smoothed image obtained after the local averaging processing is:

wherein, S is the point set in the point (x, y) field, M is the total number of points (x, y) in the point set S, and the noise variance can be reduced to 1/M after the image is smoothed.

The invention has the beneficial effects that:

1. the visual design and transmission can be carried out on the image, the image can be used for field design and effect display, and the daily design requirements of designers and design teams are met;

2. the large data transmission also adopts a multiple security encryption mechanism, manual configuration of file fragments can be carried out at a sending end, an instant forwarding strategy is adopted at a server end, namely, the server end receives file fragment information without integration and directly pushes the information to a receiving end, the server end carries out file transmission record, and the receiving end carries out file integration. .

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a block diagram of a big data based image design visual communication system module of the present invention;

FIG. 2 is a block diagram of a data transmission server architecture according to the present invention;

reference numbers in the figures: 1. a data transmission server; 2. a client; 3. designing a module; 4. an object management module; 5. a material management module; 6. a connection management module; 7. a data storage module; 8. a big data transmission module; 9. a message management module; 10. a message receiving unit; 11. a message extraction unit; 12. and a message pushing unit.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-2, the present invention provides the following technical solutions: a big data based image design visual communication system, comprising:

the data transmission server 1 is used for storing and transmitting data;

the client 2 is used for assisting a user in developing a related system structure, can be in butt joint with the data transmission server 1 by performing simple parameter filling and function calling, and is responsible for service data interaction;

the design module 3 is used for calling a design object image from the object database as a basis, calling corresponding design materials from the material database to design in the target object image, and acquiring a corresponding design effect diagram;

the object management module 4 is used for managing the image information of the design object, including inputting a new design object image into the object database, and editing, calling and classifying the design object image stored in the object database;

and the material management module 5 is used for managing the design materials, including inputting new design materials into the material database, and editing, calling and classifying the design materials stored in the material database.

Preferably, the data transmission server 1 includes:

the connection management module 6 is used for being responsible for login verification of the client 2 and information maintenance of the target queue;

the data storage module 7 is used for providing different storage modes according to the server selection condition and respectively storing the different storage modes into the object database and the material database;

the big data transmission module 8 is used for providing a service of big data related operation and ensuring efficient and stable data transmission;

and the message management module 9 is used for performing data interaction with the client 2 and selecting different processing strategies according to actual service conditions.

Preferably, the description file of the big data transmission module 8 is an XML document, where the description file contains various pieces of information used in big data transmission, including:

the message node table is used for recording the overall situation of data transmission, and updating the message state in the corresponding data storage mode when the node information changes;

the attachment node table is used for recording information of a single attachment to which the message belongs, including data such as storage position size and the like, and updating the state of the message node when all attachments are uploaded or downloaded;

and the fragment node table is used for recording the information of the single fragment after the attachment fragmentation, including the information of the fragment length, the name, the state and the like. And when all the fragments are uploaded or downloaded, updating the attachment states corresponding to the fragments.

Preferably, the message management module 9 includes:

a message receiving unit 10, configured to send a request to a corresponding client 2, parse the request message, and convert the message into a format that can be recognized by the system;

a message extracting unit 11, configured to extract the message from the storage medium and deliver the extracted message to the message pushing unit 12;

and the message pushing unit 12 is used for connecting with the client 2 and sending the message to the client 2 in an active pushing manner.

Preferably, the connection management module 6 performs two steps of user name and password authentication and IP address authentication, and the authentication process includes:

1) the data security unit firstly reads basic information from the configuration file and carries out verification initialization;

2) a user sends connection information such as a user name and a password to a server side;

3) the server firstly verifies the IP logged in by the user;

4) then, matching and verifying a user name and a password sent by a user;

5) and finally, the server returns the verification result to the user.

Preferably, the design module 3 further includes a preprocessing subunit, configured to preprocess the acquired design object image, eliminate noise influence on the design object image in the acquisition process, output the preprocessed design object image, and record the preprocessed design object image in the object database.

Preferably, the preprocessing subunit performs preprocessing on the acquired design object image, including:

assuming that the noise on the image is additive, uncorrelated, and has a mean value of zero, a noisy digital image includes the original image signal f (x, y) and the noise n (x, y), i.e.: g (x, y) = f (x, y) + n (x, y), and the smoothed image obtained after the local averaging processing is:

wherein, S is the point set in the point (x, y) field, M is the total number of points (x, y) in the point set S, and the noise variance can be reduced to 1/M after the image is smoothed.

The invention has the beneficial effects that:

1. the visual design and transmission can be carried out on the image, the image can be used for field design and effect display, and the daily design requirements of designers and design teams are met;

2. the large data transmission also adopts a multiple security encryption mechanism, manual configuration of file fragments can be carried out at a sending end, an instant forwarding strategy is adopted at a server end, namely, the server end receives file fragment information without integration and directly pushes the information to a receiving end, the server end carries out file transmission record, and the receiving end carries out file integration.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. 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 (7)

1. Big data based image design visual communication system, its characterized in that: the method comprises the following steps:

the data transmission server is used for storing and transmitting data;

the client is used for assisting a user in developing a related system structure, can be in butt joint with the data transmission server by performing simple parameter filling and function calling and is responsible for service data interaction;

the design module is used for calling a design object image from the object database as a basis, calling corresponding design materials from the material database to design in the target object image and acquiring a corresponding design effect diagram;

the object management module is used for managing the image information of the design object, and comprises the steps of inputting a new design object image into the object database, and editing, calling and classifying the design object image stored in the object database;

and the material management module is used for managing the design materials, including inputting new design materials into the material database, and editing, calling and classifying the design materials stored in the material database.

2. The big data based image design visual communication system of claim 1, wherein: the data transmission server includes:

the connection management module is used for being responsible for login verification of the client and information maintenance of the target queue;

the data storage module is used for providing different storage modes according to the server selection condition and respectively storing the different storage modes into the object database and the material database;

the big data transmission module is used for providing a service of big data related operation and ensuring the efficient and stable transmission of data;

and the message management module is used for carrying out data interaction with the client and selecting different processing strategies according to the actual service condition.

3. The big-data based image design visual communication system of claim 2, wherein: the big data transmission module description file adopts an XML document, wherein the description file contains various information used in big data transmission, and the description file comprises the following information:

the message node table is used for recording the overall situation of data transmission, and updating the message state in the corresponding data storage mode when the node information changes;

the attachment node table is used for recording information of a single attachment to which the message belongs, including data such as storage position size and the like, and updating the state of the message node when all attachments are uploaded or downloaded;

and the fragment node table is used for recording the information of the single fragment after the attachment fragmentation, including the information of the fragment length, the name, the state and the like. And when all the fragments are uploaded or downloaded, updating the attachment states corresponding to the fragments.

4. The big-data based image design visual communication system of claim 2, wherein: the message management module comprises:

the message receiving unit is used for sending a request to a corresponding client, analyzing the request message and converting the message into a format which can be identified by a system;

the message extraction unit is used for extracting the message from the storage medium and delivering the message to the message pushing unit;

and the message pushing unit is used for connecting with the client and sending the message to the client in an active pushing mode.

5. The big-data based image design visual communication system of claim 2, wherein: the connection management module passes through two steps of user name and password verification and IP address verification, and the verification process comprises the following steps:

1) the data security unit firstly reads basic information from the configuration file and carries out verification initialization;

2) a user sends connection information such as a user name and a password to a server side;

3) the server firstly verifies the IP logged in by the user;

4) then, matching and verifying a user name and a password sent by a user;

5) and finally, the server returns the verification result to the user.

6. The big data based image design visual communication system of claim 1, wherein: the design module also comprises a preprocessing subunit, which is used for preprocessing the acquired design object image, eliminating the noise influence on the design object image in the acquisition process, outputting the preprocessed design object image and inputting the preprocessed design object image into an object database.

7. The big-data based image design visual communication system of claim 6, wherein: the preprocessing subunit preprocesses the acquired design object image, and includes:

assuming that the noise on the image is additive, uncorrelated, and has a mean value of zero, a noisy digital image includes the original image signal f (x, y) and the noise n (x, y), i.e.: g (x, y) = f (x, y) + n (x, y), and the smoothed image obtained after the local averaging processing is:

wherein, S is the point set in the point (x, y) field, M is the total number of points (x, y) in the point set S, and the noise variance can be reduced to 1/M after the image is smoothed.

Images