3D animation as the mainstream of modern technology in the development of animation products and the processing technology used now is technically higher than the original animation processing technology effect, which requires that the staff must be skilled in graphics generation and legend technology. Generally speaking, 3D animation is mainly divided into two aspects: character animation and virtual scene production. The final construction of the scene can make the viewer feel immersive. In their study, Wang Ling, Yu Zhe and Gao Wei et al. proposed to use the 3D animation production auxiliary system to build 3D animation models in the output and rendering of actors’ actions and facial expressions data on the Unity platform, so as to improve the production quality of 3D animation. Yang Jinqiu, Tong Lijing and Fu Xiaoqin et al. proposed to construct 3D face model by combining the face features based on the analysis of facial modelling animation system extracted by features, which is conducive to improving the accuracy and real-time performance of the system operation. Although the above studies have verified the effectiveness of three-part animation modelling, the actual rendering effect is not realistic, so it is difficult to bring immersive viewing effect for the audience. Therefore, after understanding the existing 3D animation system built by virtual reality technology, this paper puts forward new requirements for the verisimilitude of the final rendering effect [1].
Combined with the analysis of the system structure diagram shown in Figure 1, it can be seen that the three-part animation system designed and analysed by using virtual reality technology is mainly divided into four parts: First, the perception module. This part refers to the acquisition of simulated information of virtual characters according to different virtual scenes, and the conversion of the selected props and the data of nearby characters into perceptual information, so as to provide services for the emotional module and behaviour module. Second one the emotional module [2]. This part refers to including the characters’ customised emotions in the plot description, and setting up personalised emotion transformation strategy, so as to improve the rendering effect of 3D animation characters while changing emotions in time. Third is the behaviour module. This part refers to the behaviour selection ability of animation characters. Their performance ability and reaction ability during sports are mainly affected by the design level of behaviour modules. Fourth is three animation generation module. This part is the core content of the operation of 3D animation system, which involves motion control, scene modelling, character modelling and other aspects of the content. From the overall perspective, the flow chart of 3D animation modelling is shown in Figure 2 [3].
System frame diagram
3D animation production flow chart
In the three-digit animation system, the character knows how to act refers to motion (T), and adjusting the original posture (Ti) of the character can obtain the new posture (T). This process belongs to visual interactive action design. Generally speaking, the size of the user window is
<
In the above formula,
After completing the construction of three animation characters and scenes, we need to analyse the principle of texture mapping. In essence, the principle mapping technology can simulate the fine but irregular colour texture of the surface of the human body or object, which can be applied to 3D animation modelling to simplify the actual modelling operation process. The processing of virtual 3D animation modelling based on texture mapping technology mainly starts from two points: on the one hand, it will be clear which part of the surface parameters of human body or object needs to be defined into texture form on the basis of judging texture attributes; On the other hand, we should not only build the mapping relationship between the texture space and the human body or object space, but also master the mapping relationship between the human body or object space and the screen space [4].
Combined with the above image analysis, it can be seen that
The specific calculation process is as follows:
It is assumed that the vertices of the triangle are respectively
In order to analyse the mapping relationship between the surface piece and the corresponding texture coordinates, the perspective projection transformation can be used to calculate the texture coordinates of the mesh points, as shown below:
In the above formula,
After studying all the texture mapping processes, it can be seen that the image size can be designed as m
In the above formula,
Assume that the texture coordinates (
The centroid algorithm is used to improve the test accuracy of data processing. Common application forms of the algorithm are divided as follows:
First, ordinary centroid algorithm:
Second, the strongly weighted centroid algorithm:
In this kind of algorithm, three forms of weighting function are mainly involved, as shown below:
Third, distance centroid algorithm.
In the above formula, (
The image centroid is the centre of gravity of the image grey level. Assume that the image has two directions of
Fourth is the traditional centroid algorithm. Assuming that the coordinate of the pixel in row
In previous research on the positioning accuracy of the algorithm, let, and because the grey value of the star pixel has noise, it can be obtained as follows:
In the above formula,
And the above formula meets the following conditions:
When calculating median filtering, the specific formula is as follows:
The corresponding weighted median filter is:
From a physical perspective, the centroid refers to a three-dimensional manifold W in an Euclidean space. The coordinates of its centroid C can be calculated by using the weighted average coordinates of all internal points. The specific formula is as follows:
In the above formula,
Therefore, in the algorithm analysis, the corresponding definition formula can be obtained by replacing the Euclidean distance with the internal distance of the three-dimensional manifold:
In the above formula,
Its gradient formula can be expressed as:
When calculating and analysing the geometric internal distance, the heat conduction equation can be used to study. Suppose that the solution of the equation representing heat conduction, where
Combined with the theoretical analysis proposed by Varadhan, it can be known that there is the following relationship between the distance
In the above formula,
Next, we need to calculate and analyse the discretisation of 3D manifolds and the discretisation of differential operators. Taking the latter as an example, if f is a scalar function defined inside the geometry, then in the discrete case,
In the above formula,
3D animation creation contains two aspects, on the one hand refers to the role modelling while on the other hand is the scene modelling. This paper mainly starts with the scene modelling of geometric centroid algorithm and analyses the verisimilitude of the final rendered picture and the coherence of the action. Taking basketball as an example, it is necessary to complete relevant operations according to visual recognition, feature extraction and other content requirements to transform the moving process of an athlete into a virtual three-dimensional animation scene. At the same time, texture mapping technology is also used in the analysis operation in this paper. By comparing and analysing the final animation images, it can be seen that the actual effect is not only clearer and lifelike, but also can guarantee the continuity of the moving picture. In order to further verify the modelling effect of the virtual 3D animation scene outlined in this paper, it is necessary to conduct an experimental analysis on the basis of obtaining athlete videos. The number of clips is 60 frames, so every 10 frames is set as one segment. Finally, in the virtual 3D animation video, the selected motion segment smooth connection is shown in Figure 3 [5].
Comparison of smooth kinematic connections between left and right elbow joints and calcaneal joints
From the comparison and analysis of the above pictures, it can be seen that the system outlined in this paper is more gentle in the junction area of the two segments, which can not only guarantee the effective connection of the two movements, but also fully show the actual motion details and inherit the original motion data. It is proved that the modelling of virtual 3D animation scene based on geometric centroid algorithm is more real and effective.
In addition, according to the case analysis of other types of virtual 3D animation scene modelling outlined in this paper, the operation methods based on visual recognition and feature extraction are the most common. By comparing and analysing the motion of the two systems and the connection effect of multiple motion fragments of the system outlined in this paper, the following results are obtained, as shown in Figure 4 [7].
Comparison and analysis diagram of three systems based on the connection of multiple motion segments
From the above pictures, it can be seen that the system outlined in this paper is relatively smooth in the connecting area of motion fragments, while the other two systems have many problems in the connecting area, so it is difficult to comprehensively present all motion fragments. Thus, virtual 3D animation scene shows that the reasonable use of virtual reality technology and the geometric centroid algorithm, not only can improve the speed of system modelling, but can also guarantee the image rendering effects, can also expand the application range of virtual reality technology and can promote the art of the fusion of technology and animation industry development in our country.
To sum up, under the background of new era, in the face of increasingly innovation market environment, the three dimensional animation industry to achieve sustainable development, must attach importance to the virtual reality technology and combining the application of these algorithms and exploration; focussing on the comprehensive study 3D animation system has started with the modelling work and thus speed up the creation of real works and the realistic effect of character or object. At the same time, according to the development direction of 3D animation industry, we should vigorously cultivate excellent technical and managerial talents, which can not only improve the comprehensive level of 3D animation industry, but also promote the pace of integration of art, modern technology, traditional industry and animation industry. In addition, the existing virtual reality technology and 3D animation system should be continuously optimised and innovated according to the understanding and demand of consumer groups for 3D animation scenes. Only in this way can the steady development of 3D animation industry be guaranteed [8].