Building Virtual Scene Construction and Environmental Impact Analysis Based on Image Processing

With the rapid development of computer technology, the virtual scene construction technology of image processing has gradually become a hotspot in computer research. +e application of virtual scene construction technology in the construction industry is also expanding, with the intelligentization of architectural design and construction. With the rapid development of the industry, virtual technology can better provide users with diversified services and experiences. +e main content of the article is as follows: (1)+e article introduces image construction technology and analyzes the three-dimensional presentation of virtual technology in construction design and the diversified application of virtual technology in construction design. (2) +e article introduces two virtual scene construction techniques: one is to combine the real scene obtained by taking pictures with the virtual scene by image technology processing to construct a natural virtual scene; the other is the use of geometric construction by architects. +e virtual building model is drawn by the model method, and the virtual building model is thus obtained. (3) +e article chooses two representative buildings as cases. +e virtual platform monitors and records the movement trajectory of volunteers in the virtual environment in real time.+e experimental results show that the number and shape characteristics of the escalators in the building all have a little impact on volunteers’ awareness. (4) +e article sets up three control groups of normal mode, fixed skin, and variable skin. It analyzes the environmental impact of buildings from three different aspects of wind environment, thermal environment, and light environment and proposes related control measures.


Introduction
With the advent of the information age, the construction industry has also entered an intelligent field; the application of virtual scene construction technology in the construction industry is also expanding. e use of virtual reality technology when designing buildings can not only visually display the art of the building. e effect is also a great advantage in saving energy and labor. Huaqin et al. [1] discussed a remote virtual platform based on VRML-JAVA language, which is constructed and scene-oriented with realistic and interactive information. Jin et al. [2] used virtual reality 3D holographic projection technology to realize the 3D image imaging scene of the building suspended in the air. e article combines image technology with the real estate industry, analyzes the building's modeling and imaging steps, improves the expressiveness of the building, and also brings great value and development prospects to the construction industry. Hou and Li [3] proposed a collision detection strategy based on enclosure and enclosure hierarchy to meet the performance requirements of virtual hoisting collision detection. R. Joseph and Perera [4] introduced the mechanism of applying internal and external design structures after converting 2D drawings into 3D building information models (BIMs). In the early stage of construction, it is very useful to create a 3D model according to the customer's requirements. e article introduces the method of 3D model creation. Pruss et al. [5] introduced a computer-implemented method for generating building block instructions for building block models. Guo and Chen [6] discussed the role and significance of AR in airport construction projects. In the early stage of building construction, designers have to apply many advanced technologies, such as image processing technology and virtual model construction to generate virtual building models with computers. Zhao et al. [7] produced a hierarchical model to describe the 3D dynamic geographical process. Describing the geographical factors that change with time during the construction process and simulating visual scenes with computers are of great significance to the management and decision-making of the building. In [8], large eddy simulation (LES) was performed on the airflow around various types of block arrays to estimate the pedestrian wind environment. e experiment selected five different arrays for simulation. e experimental results show that the area ratio is an important indicator for estimating the wind environment. We can use the area ratio to simulate the height change of the building. Lang [9] proposed a model for estimating solar radiation based on existing weather records and determining typical meteorological months and interpolation procedures for missing data. Kajikawa et al. [10] discussed the benefits, limitations, and future directions of the evaluation framework [11]. Do [12] proposed an analysis method for building environmental service plans that are verified throughout the year. e service plan of building environment service is a very important part of the whole design. e designed plan must meet the requirements of the indoor environment. e article proposes an analysis method of building service that can meet most of the requirements. Yun and Won [13] uses machine learning algorithms to establish a built environment model, which can be used to evaluate the comfort of occupants. We have proposed an energy control measure, which can effectively record the energy consumption of the room and record the comfort of the residents, so as to provide a better accommodation environment for the owners. Ivanova [14] focused on using anisotropic sky-viewing angle factors to estimate the background component of incident diffuse solar radiation on building facades under the orthogonal obstructed sky. Because the Earth's available resources are very limited, we have to design buildings that can use solar energy. Xueping [15] tested the 4 most commonly used heating methods and discussed indoor thermal environmental conditions for different heating methods. e temperature in the north is relatively low in winter, and many citizens choose certain heating measures in winter. e experiment compares common heating methods and provides a reference for citizens to choose heating methods.

ree-Dimensional Presentation of Virtual Reality
Technology in Architectural Design. Architectural design work is very complicated. In the design work, designers will inevitably encounter some problems, such as the size of the building being not clear enough and the structural drawings of the building having some problems. But, the reason is that building virtual scene construction technology can solve these problems very well. e design drawings are presented in three-dimensional graphic construction technology, which largely avoids architectural errors, facilitates designers to find problems, and improves work efficiency.
When faced with a single two-dimensional or threedimensional overprofessional drawing model, the construction personnel cannot make a correct understanding of the construction operation of the building, causing deviations between the design and the actual building, making the construction impossible and causing serious losses from many parties. Participants can immerse in the virtual space and intuitively understand the designer's description of the main structure, spatial layout, and details of the building or building group, so as to grasp the detailed requirements in the work and avoid repeated construction problems that cause irreparable losses to subsequent construction. e three-dimensional sensory presentation allows participants to better complete the construction requirements and tasks during construction and finally realizes the application, economy, solidity, and beauty of the building.
Architectural designers use the immersion, interactivity, and conception of virtual reality technology to fully integrate with the architectural concept [16]. First, the building participants have an immersive feeling during use. Second, the building participants can interact with most of the objects in the virtual environment by using sensing devices.
is makes the complex and abstract architectural design become concrete with the use of virtual reality technology. e greater advantage is that designers can communicate with other architectural participants remotely, thereby reducing time costs, breaking geographical restrictions, and making architectural design more wide-area.

Application of Virtual Reality Technology in Architectural
Design.
e technical personnel input the engineering information and design parameters of the architectural design into the three-dimensional modeling software through the computer, and the three-dimensional modeling software builds the three-dimensional architectural model and supporting database based on the input data. Technicians issue operating commands to the model drive system through the computer, adjust the building model information, display the progress of the building project design plan in real time, follow up the project, and adjust the model parameters in time. Building participants are immersed in the virtual simulation space created by virtual reality technology and feel the reality of the lighting changes, architectural pattern, modeling structure, and surrounding environment in the virtual simulation space [17]. Compared with the method of drawing building models from ordinary drawings, the use of virtual technology not only is environmentally friendly and cost-saving but also allows more people to participate in the process of architectural design and better understand architectural details and specific construction conditions. It provides convenience for designers to modify the architectural design plan in the later stage of construction, and at the same time, it is convenient to save the architectural design, which is conducive to the comparison and update of future designs [18]. e virtual building model is the basis for constructing the virtual real scene. e size ratio between the measurement unit of the model and the real scene and the parameter values of the entire model all affect the final presentation effect of the virtual real scene.

Analysis of Building Environmental Impact.
Environmental performance is reflected in the park design as the external and internal environments of the park. e external environment of the park includes ecological environment, traffic environment, outdoor functional space created by the building, and environmental impacts around the park. According to different time domains, environmental quality assessment can be divided into environmental quality review assessment, environmental quality status assessment, and environmental quality forecast assessment. Environmental quality assessment of construction projects mainly refers to the assessment of environmental quality status. Environmental postassessment refers to the systematic investigation and evaluation of the actual impact degree of the environment after the development and construction activities are carried out, so as to test the implementation degree and effectiveness of reducing the impact and test the true credibility of the environmental assessment results. To evaluate the effectiveness of the implementation of the proposed environmental protection countermeasures, and to analyze and discuss the influencing factors that are not fully understood in the environmental assessment, check the implementation degree and implementation effect of reducing the impact and test the true credibility of the environmental assessment results. After evaluating the effectiveness of the proposed environmental protection measures, the fully understood environmental impact problems are classified and studied, so as to improve the technical methods and levels of environmental assessment and implement remedial measures, thus achieving the effect of reducing the impact.

Theory and Technology Based on Image Construction
3.1. Image Deformation Technology. e image deformation technology can realize the excessive viewpoint, while interpolating the shape and texture of the image [19], as shown in Figure 1.
A pair of line segments can define the mapping relationship between the source image and the target image [20]; the specific algorithm is as follows: calculate PQ based on en, find u, v based on P ′ Q ′ and line segment X ′ ; when using multiple pairs of line segments, it is necessary to perform a weighted average on the multiple offsets obtained, as shown in Figure 2. e specific algorithm is as follows, for each pixel on the target image: (2) Calculate the offset of the line segment as Calculate the shortest distance from X to P i Q i as Finally,

Projection Reconstruction Algorithm.
e Euclidean motion theory is used to explain the geometric relationship between the two-dimensional image and the three-dimensional image captured using the same camera. All points p ∈ E 3 in the space can be represented by a certain threedimensional coordinate point in R 3 : e coordinates of p and q in space are X and Y, respectively, by the vector formed by p and q: e inner product of two vectors v, u ∈ R 3 in space is e vector product is We define a matrix u ∈ R 3×3 : e vector product can be expressed as

Scientific Programming
It is also necessary to introduce rigid body motion theory, as shown in Figure 3.
e formula can be expressed as Figure 3 coordinates of point P in the camera coordinate system are (X, Y, Z), and the two-dimensional coordinates on the plane are X � e homogeneous coordinate form is as follows: where Let λ _ �Z, and the formula can be written as

Uncertain Measurement of Environmental Impact.
e environmental impact of the construction process includes building materials, construction machinery, resources, and labor, which can be abstracted into mathematical formulas [22]: Here, E total is the total emission of environmental pollutants [23]: e formula for environmental pollutant emission per unit amount of environmental influencing factors is During the construction process, the simulation module provides dynamic data under the influence Q v [24]: According to the environmental pollution impact assessment method, the damage value of the human body, ecology, and natural resources can be calculated:

Virtual Building Scene Construction Technology.
Computer graphics technology is one of the methods of constructing virtual scenes. We usually use the technology of "combination of virtual and real" to construct the virtual environment required by users [25]. e nonexistent scene is the virtual scene. e combination of the real scene and the virtual scene creates the most natural virtual scene, as shown in Figure 4. e virtual model can also be drawn by the architect using the method of geometric modeling. It must be drawn according to the real size of the building, and then, a virtual model is constructed based on the geometric model and the real map drawn by the architect, as shown in Figure 5.
is section is mainly on the virtual technology and real technology of building analysis, through the combination of

Simulation Experiment.
is study selects the more representative architectural model 1 and architectural model 2 of our country's construction projects as cases. Architecture 1 and architecture 2 are widely distributed in our country and have a large amount of construction; we took photos and measurements of the case on the spot, and then, according to the experiment, it is required to construct a virtual simulation scene. In order to avoid the interference of environmental factors on the experiment, when constructing the virtual scene, the dimensions, position, and other factors must be consistent with the real environment, as shown in Figure 6.
We selected 30 volunteers to participate in the experiment. e average age of volunteers is 20-40 years, and the proportion of males and females is not equal. e virtual experiment platform is used to collect volunteers' pathfinding trajectories in building 1 and building 2, in order to reduce certain volunteers. e experiment error is caused by the proficiency of the scene, so before the formal start of the experiment, each volunteer needs to enter the venue in advance to get familiar with the interactive process of the virtual scene. e specific data are shown in Table 1.
e experiment monitors and records the movement trajectory of volunteers in the virtual environment in real   Table 2. Volunteers conducted research on the overall form cognition and local feature cognition of the scene layout. Volunteers' cognitive biases were mainly concentrated on the turning angle of the horizontal channel. e specific data are shown in Table 3.
From Table 3, we can see that there are significant differences in the volunteers' awareness of the atrium content, shape, and size characteristics of the two buildings.
Building 2 is superior to Building 1 in the number of escalators in the atrium. In terms of information, the information of Building 1 is obviously better than that of CapitaLand, in terms of atrium shape recognition, building 1 and building 2 do not show a significant difference, but building 1 has a higher score than building 2.

Environmental Analysis.
In order to verify the impact of building energy consumption on the indoor environment, we have adopted a series of measures such as ventilation and lighting to simulate and analyze the building. e simulated building is in an area where the sunshine is strong and the average temperature is medium and high. Details are set out in Table 4, and the rate of indoor personnel in the room is shown in Figure 7.

Experimental Verification.
In order to test the impact of building energy consumption and the built environment, we set up three control groups: normal mode, fixed skin, and variable skin. e normal mode is only the building itself, and the variable skin is the additional skin in addition to the building itself. e building skin will have a certain impact on the indoor thermal environment and building energy consumption. We compared these modes, analyzed the three environmental performances of wind environment, thermal environment, and light environment, and recorded their design elements and related control measures; the specific data are shown in Table 5. According to Figure 8, we can conclude that compared with the normal mode, the variable skin mode has good ventilation and relatively less energy consumption. It saves energy to a certain extent and can also highlight its own architectural characteristics. ermal environment influencing factors and control measures are shown in Table 6.
To verify the thermal environmental impact and total energy consumption data of the building under three different modes, we adopt three modes of lighting, cooling, and heating to analyze the thermal environmental impact, as shown in Table 7.
From Figure 9, we can see that the total energy consumption of buildings in the cooling mode is the largest. In terms of lighting, fixed skin and variable skin will increase certain energy consumption. e normal mode is the most energy efficient. By comprehensive comparison, variable skin has the highest energy-saving efficiency.   Factors affecting the light environment and control measures are shown in Table 8.
We introduced natural light and recorded the sunshine in winter and summer at different locations of the building under three different conditions, as shown in Figure 10.
We can see from Figure 10 that compared with the normal mode, the variable skin can effectively reduce the glare time in the room to a certain extent, can reduce the energy consumption caused by architectural lighting, and increase the comfort of natural lighting.   Landscape design e actual situation of architectural design is combined to optimize the wind environment of landscape design

Conclusion
Starting from virtual reality technology, this paper analyzes the influence of buildings in the environment from the perspective of architectural model. e main conclusions are as follows: (1) is paper introduces two kinds of virtual scene construction technologies: one is to combine the real scene obtained by taking pictures with the virtual scene by image technology, so as to construct a natural virtual scene; the other is that architects draw virtual building models by using geometric modeling methods, thus obtaining virtual building models. (2) is paper chooses two representative buildings as cases and monitors and records the moving track of volunteers in the virtual environment in real time through the virtual platform. rough the experimental results, it can be concluded that the number and shape characteristics of escalators in buildings have a little influence on the cognitive degree of volunteers. (3) is paper sets up three control groups, common mode, fixed skin, and variable skin, analyzes the environmental impact of buildings from three different aspects of wind environment, thermal environment, and light environment, and puts forward relevant control measures.

Data Availability
e experimental data used to support the findings of this study are available from the corresponding author upon request.