CN116664741B - Industrial configuration scene rendering method of high-definition pipeline - Google Patents

Abstract

The invention relates to the technical field of industrial simulation, in particular to an industrial configuration scene rendering method of a high-definition pipeline, which is used for solving the problem of poor flexibility of the existing rendering system; the industrial configuration scene rendering method comprises the steps of firstly defining a rendering area by self-definition of a model needing scene rendering, then selecting a reference object, selecting a reference area from the reference object, and corresponding the rendering area to the reference area, thereby obtaining mapping colors and mapping parameters of the reference area and rendering the rendering area, realizing the purpose of efficient scene rendering of the model, regulating color parameters through uniform mapping parameters, balancing and coordinating the color parameters of the obtained rendering object, and providing the reference object for the model needing scene rendering at the subsequent time to further improve the rendering efficiency and richness of the model.

Description

Industrial configuration scene rendering method of high-definition pipeline

Technical Field

The invention relates to the technical field of industrial simulation, in particular to an industrial configuration scene rendering method of a high-definition pipeline.

Background

In the industrial field, in order to depict a complex industrial scene, a 3D visual simulation real scene brings more visual feeling to a person, and the cognition and management threshold of a system user is reduced. At present, most of the prior art rendering systems are designed for pictures or videos, and the design thought of the prior art rendering systems is to render the latter videos of the pictures in a random or predefined manner, for example, the prior art rendering systems can divide the pictures or videos into different areas in a random or predefined manner and respectively or selectively render part or all of the areas, however, the rendering modes provided by the prior art rendering systems need to manually set parameters and render each area, which is large in workload, easy to make mistakes, and low in efficiency, which results in poor flexibility of the prior art rendering systems.

How to improve the flexibility of the prior art rendering system is the key of the present invention, so there is a need for an industrial configuration scene rendering method of high-definition pipeline to solve the above problems.

Disclosure of Invention

In order to overcome the technical problems described above, the present invention is directed to providing a method for rendering industrial configuration scenes of a high-definition pipeline: dividing a rendering object into a rendering area by a reference acquisition module, marking the reference image as a reference object, obtaining the reference area from the reference image by a scene rendering module, enabling the rendering area to correspond to the reference area, respectively marking the corresponding rendering area and the reference area as a rendering mapping area and a rendering mapping area, obtaining mapping colors and mapping parameters of the rendering mapping area by a data acquisition module, rendering the rendering mapping area according to the mapping colors and the mapping parameters by the scene rendering module, obtaining all mapping parameters in a pre-finished object by a scene rendering platform, obtaining average mapping parameters, adjusting the pre-finished object according to the average mapping parameters, and storing the rendering finished object by a reference storage module, thereby solving the problem of poor flexibility of the existing rendering system.

The aim of the invention can be achieved by the following technical scheme:

an industrial configuration scene rendering method of a high-definition pipeline comprises the following steps:

step one: the reference acquisition module divides the rendering object into rendering areas, marks the reference image as a reference object i, and sends the rendering object of the divided rendering areas and the reference object i to the scene rendering module;

step two: the scene rendering module obtains a reference area from the reference image, enables the rendering area to correspond to the reference area, marks the corresponding rendering area and the reference area as a rendering mapping area and a rendering mapping area respectively, and sends the rendering mapping area to the data acquisition module;

step three: the data acquisition module acquires the mapping color and the mapping parameter of the rendering mapping area and sends the mapping color and the mapping parameter to the scene rendering module;

step four: the scene rendering module renders the rendering mapping area according to the mapping colors and the mapping parameters, and sends the pre-completed objects obtained after rendering to the scene rendering platform;

step five: the scene rendering platform acquires all mapping parameters in the pre-completed object, acquires average mapping parameters, adjusts the pre-completed object according to the average mapping parameters, and sends the rendering completed object obtained by the adjustment to the reference storage module;

step six: and storing the rendering completion object by referring to the storage module.

As a further scheme of the invention: the working process of the reference acquisition module is specifically as follows:

marking a model needing scene rendering as a rendering object, dividing the rendering object into a plurality of rendering areas in a self-defining way, marking the rendering areas with different characters respectively, and sending the rendering objects with the divided rendering areas to a scene rendering module; wherein, the characters comprise Chinese characters, numbers and letters;

inputting reference images, sequentially marking a plurality of reference images as reference objects i, i=1, … …, n and n are natural numbers, and sending the reference objects i to a scene rendering module; the reference image comprises a picture and a rendering completion object stored in the reference storage module.

As a further scheme of the invention: the working process of the scene rendering module is specifically as follows:

a plurality of reference areas are selected in a self-definition mode in a reference image, the reference areas are marked by different characters respectively, the characters of the marked rendering areas correspond to the characters of the marked reference areas, one rendering area and a plurality of rendering areas correspond to one reference area, the corresponding rendering areas and the reference areas are marked as rendering mapping areas and rendering mapping areas respectively, and the rendering mapping areas are sent to a data acquisition module;

rendering the colors in the rendering mapping region until the colors are consistent with the mapping colors after the mapping colors are received;

rendering the color parameters in the rendering mapping area until the color parameters are consistent with the mapping parameters after the mapping parameters are received;

marking the rendering object after all the rendering mapping areas are rendered as a pre-completed object, and sending the pre-completed object to the scene rendering platform.

As a further scheme of the invention: the working process of the data acquisition module is specifically as follows:

acquiring all colors in the rendering mapping area according to the RGB values, acquiring the color occupying the largest area in the total area of the rendering mapping area, and marking the color as the mapping color;

acquiring color parameters in a rendering mapping area and marking the color parameters as mapping parameters; wherein the color parameters include brightness, contrast, saturation, color temperature, and hue;

and sending the mapping colors and the mapping parameters to a scene rendering module.

As a further scheme of the invention: the working process of the scene rendering platform is specifically as follows:

after receiving the pre-completed object, calculating an average mapping parameter of the mapping parameters of each rendering mapping area in the pre-completed object, marking the average mapping parameter as an average mapping parameter, adjusting the color parameter of each rendering mapping area to be consistent with the average mapping parameter, marking the rendering object after all rendering mapping areas are adjusted as a rendering completed object, and sending the rendering completed object to a reference storage module; the average mapping parameters comprise a brightness average value, a contrast average value, a saturation average value, a color temperature average value and a tone average value, wherein the brightness average value is the average value of brightness in all rendering mapping areas, the contrast average value is the average value of contrast in all rendering mapping areas, the saturation average value is the average value of saturation in all rendering mapping areas, the color temperature average value is the average value of color temperature in all rendering mapping areas, and the tone average value is the average value of tone in all rendering mapping areas.

As a further scheme of the invention: the specific process of the industrial configuration scene rendering method of the high-definition pipeline comprises the following steps:

step s1: marking a model needing scene rendering as a rendering object by referring to an acquisition module, dividing the rendering object into a plurality of rendering areas in a self-defining way, marking the rendering areas with different characters respectively, and sending the rendering objects with the divided rendering areas to a scene rendering module; wherein, the characters comprise Chinese characters, numbers and letters;

step s2: inputting reference images, sequentially marking a plurality of reference images as reference objects i by a reference acquisition module, wherein i=1, … …, n and n are natural numbers, and transmitting the reference objects i to a scene rendering module; the reference image comprises a picture and a rendering completion object stored in the reference storage module;

step s3: the scene rendering module self-defines a plurality of reference areas in the reference image, marks the reference areas with different characters respectively, enables the characters marked with the rendering areas to correspond to the characters marked with the reference areas, further corresponds one rendering area and a plurality of rendering areas to one reference area, marks the corresponding rendering areas and the reference areas as a rendering mapping area and a rendering mapping area respectively, and sends the rendering mapping area to the data acquisition module;

step s4: the data acquisition module acquires all colors in the rendering mapping area according to the RGB values, acquires the color occupying the largest area in the total area of the rendering mapping area, and marks the color as the mapping color;

step s5: the data acquisition module acquires color parameters in the rendering mapping area and marks the color parameters as mapping parameters; wherein the color parameters include brightness, contrast, saturation, color temperature, and hue;

step s6: the data acquisition module sends the mapping colors and the mapping parameters to the scene rendering module;

step s7: the scene rendering module renders the colors in the rendering mapping area to be consistent with the mapping colors after receiving the mapping colors;

step s8: the scene rendering module renders the color parameters in the rendering mapping area until the color parameters are consistent with the mapping parameters after receiving the mapping parameters;

step s9: the scene rendering module marks the rendering object after all the rendering mapping areas are rendered as a pre-completed object, and sends the pre-completed object to the scene rendering platform;

step s10: after receiving the pre-completed object, the scene rendering platform obtains an average mapping parameter from the mapping parameters of each rendering mapping area in the pre-completed object, marks the average mapping parameter as an average mapping parameter, adjusts the color parameter of each rendering mapping area to be consistent with the average mapping parameter, marks the rendering object after all the rendering mapping areas are adjusted as a rendering completed object, and sends the rendering completed object to the reference storage module; the average mapping parameters comprise a brightness average value, a contrast average value, a saturation average value, a color temperature average value and a tone average value, wherein the brightness average value is the average value of brightness in all rendering mapping areas, the contrast average value is the average value of contrast in all rendering mapping areas, the saturation average value is the average value of saturation in all rendering mapping areas, the color temperature average value is the average value of color temperature in all rendering mapping areas, and the tone average value is the average value of tone in all rendering mapping areas;

step s11: and storing the rendering completion object by referring to the storage module.

The invention has the beneficial effects that:

according to the industrial configuration scene rendering method of the high-definition pipeline, a rendering object is divided into rendering areas through a reference acquisition module, a reference image is marked as a reference object, the reference area is obtained from the reference image through a scene rendering module, the rendering area corresponds to the reference area, the corresponding rendering area and the reference area are respectively marked as a rendering mapping area and a rendering mapping area, mapping colors and mapping parameters of the rendering mapping area are acquired through a data acquisition module, the rendering mapping area is rendered through the scene rendering module according to the mapping colors and the mapping parameters, all mapping parameters in a pre-finished object are acquired through a scene rendering platform, average mapping parameters are obtained, the pre-finished object is adjusted according to the average mapping parameters, and the rendering finished object is stored through a reference storage module; the industrial configuration scene rendering method comprises the steps of firstly defining a rendering area by self-definition of a model needing scene rendering, then selecting a reference object, selecting a reference area from the reference object, and corresponding the rendering area to the reference area, thereby obtaining mapping colors and mapping parameters of the reference area and rendering the rendering area, realizing the purpose of efficient scene rendering of the model, regulating color parameters through uniform mapping parameters, balancing and coordinating the color parameters of the obtained rendering object, and providing the reference object for the model needing scene rendering at the subsequent time to further improve the rendering efficiency and richness of the model.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic block diagram of an industrial configuration scene rendering method for a high definition pipeline according to the present invention.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1:

referring to fig. 1, the present embodiment is a method for rendering industrial configuration scenes of a high-definition pipeline, which includes the following modules: the device comprises a reference acquisition module, a scene rendering module, a data acquisition module, a scene rendering platform and a reference storage module;

the reference acquisition module is used for dividing the rendering object into rendering areas, marking the reference image as a reference object i, and sending the rendering object with the divided rendering areas and the reference object i to the scene rendering module;

the scene rendering module is used for obtaining a reference area from the reference image, enabling the rendering area to correspond to the reference area, marking the corresponding rendering area and the corresponding reference area as a rendering mapping area and a rendering mapping area respectively, and sending the rendering mapping area to the data acquisition module; the method is also used for rendering the rendering mapping area according to the mapping color and the mapping parameter, and sending the pre-completed object obtained after rendering to the scene rendering platform;

the data acquisition module is used for acquiring mapping colors and mapping parameters of the rendering mapping area and sending the mapping colors and the mapping parameters to the scene rendering module;

the scene rendering platform is used for acquiring all mapping parameters in the pre-completed object, acquiring average mapping parameters, adjusting the pre-completed object according to the average mapping parameters, and sending the rendering completed object obtained by the adjustment to the reference storage module;

the reference storage module is used for storing the rendering completion object.

Example 2:

referring to fig. 1, the present embodiment is a method for rendering an industrial configuration scene of a high-definition pipeline, comprising the following steps:

step s1: marking a model needing scene rendering as a rendering object by referring to an acquisition module, dividing the rendering object into a plurality of rendering areas in a self-defining way, marking the rendering areas with different characters respectively, and sending the rendering objects with the divided rendering areas to a scene rendering module; wherein, the characters comprise Chinese characters, numbers and letters;

step s2: inputting reference images, sequentially marking a plurality of reference images as reference objects i by a reference acquisition module, wherein i=1, … …, n and n are natural numbers, and transmitting the reference objects i to a scene rendering module; the reference image comprises a picture and a rendering completion object stored in the reference storage module;

step s3: the scene rendering module self-defines a plurality of reference areas in the reference image, marks the reference areas with different characters respectively, enables the characters marked with the rendering areas to correspond to the characters marked with the reference areas, further corresponds one rendering area and a plurality of rendering areas to one reference area, marks the corresponding rendering areas and the reference areas as a rendering mapping area and a rendering mapping area respectively, and sends the rendering mapping area to the data acquisition module;

step s4: the data acquisition module acquires all colors in the rendering mapping area according to the RGB values, acquires the color occupying the largest area in the total area of the rendering mapping area, and marks the color as the mapping color;

step s5: the data acquisition module acquires color parameters in the rendering mapping area and marks the color parameters as mapping parameters; wherein the color parameters include brightness, contrast, saturation, color temperature, and hue;

step s6: the data acquisition module sends the mapping colors and the mapping parameters to the scene rendering module;

step s7: the scene rendering module renders the colors in the rendering mapping area to be consistent with the mapping colors after receiving the mapping colors;

step s8: the scene rendering module renders the color parameters in the rendering mapping area until the color parameters are consistent with the mapping parameters after receiving the mapping parameters;

step s9: the scene rendering module marks the rendering object after all the rendering mapping areas are rendered as a pre-completed object, and sends the pre-completed object to the scene rendering platform;

step s10: after receiving the pre-completed object, the scene rendering platform obtains an average mapping parameter from the mapping parameters of each rendering mapping area in the pre-completed object, marks the average mapping parameter as an average mapping parameter, adjusts the color parameter of each rendering mapping area to be consistent with the average mapping parameter, marks the rendering object after all the rendering mapping areas are adjusted as a rendering completed object, and sends the rendering completed object to the reference storage module; the average mapping parameters comprise a brightness average value, a contrast average value, a saturation average value, a color temperature average value and a tone average value, wherein the brightness average value is the average value of brightness in all rendering mapping areas, the contrast average value is the average value of contrast in all rendering mapping areas, the saturation average value is the average value of saturation in all rendering mapping areas, the color temperature average value is the average value of color temperature in all rendering mapping areas, and the tone average value is the average value of tone in all rendering mapping areas;

step s11: and storing the rendering completion object by referring to the storage module.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is merely illustrative and explanatory of the invention, as various modifications and additions may be made to the particular embodiments described, or in a similar manner, by those skilled in the art, without departing from the scope of the invention or exceeding the scope of the invention as defined in the claims.

Claims (5)

1. The industrial configuration scene rendering method of the high-definition pipeline is characterized by comprising the following steps of:

step one: the reference acquisition module divides the rendering object into rendering areas, marks the reference image as a reference object i, and sends the rendering object of the divided rendering areas and the reference object to the scene rendering module;

the specific process is as follows:

marking a model needing scene rendering as a rendering object by referring to an acquisition module, dividing the rendering object into a plurality of rendering areas in a self-defining way, marking the rendering areas with different characters respectively, and sending the rendering objects with the divided rendering areas to a scene rendering module; wherein, the characters comprise Chinese characters, numbers and letters;

inputting reference images, sequentially marking a plurality of reference images as reference objects i by a reference acquisition module, wherein i=1, … …, n and n are natural numbers, and transmitting the reference objects i to a scene rendering module; the reference image comprises a picture and a rendering completion object stored in the reference storage module;

step two: the scene rendering module obtains a reference area from the reference image, enables the rendering area to correspond to the reference area, marks the corresponding rendering area and the reference area as a rendering mapping area and a rendering mapping area respectively, and sends the rendering mapping area to the data acquisition module;

the specific process is as follows:

the scene rendering module self-defines a plurality of reference areas in the reference image, marks the reference areas with different characters respectively, enables the characters marked with the rendering areas to correspond to the characters marked with the reference areas, further corresponds one rendering area and a plurality of rendering areas to one reference area, marks the corresponding rendering areas and the reference areas as a rendering mapping area and a rendering mapping area respectively, and sends the rendering mapping area to the data acquisition module;

step three: the data acquisition module acquires the mapping color and the mapping parameter of the rendering mapping area and sends the mapping color and the mapping parameter to the scene rendering module;

the specific process is as follows:

the data acquisition module acquires all colors in the rendering mapping area according to the RGB values, acquires the color occupying the largest area in the total area of the rendering mapping area, and marks the color as the mapping color;

the data acquisition module acquires color parameters in the rendering mapping area and marks the color parameters as mapping parameters; wherein the color parameters include brightness, contrast, saturation, color temperature, and hue;

the data acquisition module sends the mapping colors and the mapping parameters to the scene rendering module;

step four: the scene rendering module renders the rendering mapping area according to the mapping colors and the mapping parameters, and sends the pre-completed objects obtained after rendering to the scene rendering platform;

the specific process is as follows:

the scene rendering module renders the colors in the rendering mapping area to be consistent with the mapping colors after receiving the mapping colors;

the scene rendering module renders the color parameters in the rendering mapping area until the color parameters are consistent with the mapping parameters after receiving the mapping parameters;

the scene rendering module marks the rendering object after all the rendering mapping areas are rendered as a pre-completed object, and sends the pre-completed object to the scene rendering platform;

step five: the scene rendering platform acquires all mapping parameters in the pre-completed object, acquires average mapping parameters, adjusts the pre-completed object according to the average mapping parameters, and sends the rendering completed object obtained by the adjustment to the reference storage module;

the specific process is as follows:

after receiving the pre-completed object, the scene rendering platform obtains an average mapping parameter from the mapping parameters of each rendering mapping area in the pre-completed object, marks the average mapping parameter as an average mapping parameter, adjusts the color parameter of each rendering mapping area to be consistent with the average mapping parameter, marks the rendering object after all the rendering mapping areas are adjusted as a rendering completed object, and sends the rendering completed object to the reference storage module; the average mapping parameters comprise a brightness average value, a contrast average value, a saturation average value, a color temperature average value and a tone average value, wherein the brightness average value is the average value of brightness in all rendering mapping areas, the contrast average value is the average value of contrast in all rendering mapping areas, the saturation average value is the average value of saturation in all rendering mapping areas, the color temperature average value is the average value of color temperature in all rendering mapping areas, and the tone average value is the average value of tone in all rendering mapping areas;

step six: and storing the rendering completion object by referring to the storage module.

2. The method for rendering industrial configuration scenes of a high-definition pipeline according to claim 1, wherein the working procedure of the reference acquisition module is as follows:

marking a model needing scene rendering as a rendering object, dividing the rendering object into a plurality of rendering areas in a self-defining way, marking the rendering areas with different characters respectively, and sending the rendering objects with the divided rendering areas to a scene rendering module; wherein, the characters comprise Chinese characters, numbers and letters;

inputting reference images, marking a plurality of reference images as reference objects in sequence, and sending the reference objects to a scene rendering module; the reference image comprises a picture and a rendering completion object stored in the reference storage module.

3. The method for rendering industrial configuration scenes of a high-definition pipeline according to claim 1, wherein the scene rendering module works as follows:

a plurality of reference areas are selected in a self-definition mode in a reference image, the reference areas are marked by different characters respectively, the characters of the marked rendering areas correspond to the characters of the marked reference areas, one rendering area and a plurality of rendering areas correspond to one reference area, the corresponding rendering areas and the reference areas are marked as rendering mapping areas and rendering mapping areas respectively, and the rendering mapping areas are sent to a data acquisition module;

rendering the colors in the rendering mapping region until the colors are consistent with the mapping colors after the mapping colors are received;

rendering the color parameters in the rendering mapping area until the color parameters are consistent with the mapping parameters after the mapping parameters are received;

marking the rendering object after all the rendering mapping areas are rendered as a pre-completed object, and sending the pre-completed object to the scene rendering platform.

4. The method for rendering industrial configuration scenes of a high-definition pipeline according to claim 1, wherein the working process of the data acquisition module is as follows:

acquiring all colors in the rendering mapping area according to the RGB values, acquiring the color occupying the largest area in the total area of the rendering mapping area, and marking the color as the mapping color;

acquiring color parameters in a rendering mapping area and marking the color parameters as mapping parameters; wherein the color parameters include brightness, contrast, saturation, color temperature, and hue;

and sending the mapping colors and the mapping parameters to a scene rendering module.

5. The method for rendering industrial configuration scenes of a high-definition pipeline according to claim 1, wherein the scene rendering platform works as follows:

after receiving the pre-completed object, calculating an average mapping parameter of the mapping parameters of each rendering mapping area in the pre-completed object, marking the average mapping parameter as an average mapping parameter, adjusting the color parameter of each rendering mapping area to be consistent with the average mapping parameter, marking the rendering object after all rendering mapping areas are adjusted as a rendering completed object, and sending the rendering completed object to a reference storage module; the average mapping parameters comprise a brightness average value, a contrast average value, a saturation average value, a color temperature average value and a tone average value, wherein the brightness average value is the average value of brightness in all rendering mapping areas, the contrast average value is the average value of contrast in all rendering mapping areas, the saturation average value is the average value of saturation in all rendering mapping areas, the color temperature average value is the average value of color temperature in all rendering mapping areas, and the tone average value is the average value of tone in all rendering mapping areas.