To solve the problem of large difference degree in multi-dimensional urban landscape design, a multidimensional urban landscape design method based on nonlinear theory is proposed. Research on multidimensional nonlinear landscape design methods in improving the rationality of architectural landscape design and improving the living environment is important for optimizing the structure of multidimensional nonlinear landscape design and improving the effect of urban landscape design. Firstly, according to the input and output data of the system, the multidimensional nonlinear landscape image is sampled, the virtual scene space visual planning method is used to simulate the parameters of the multidimensional nonlinear landscape design, and the block detection method is used to reconstruct the region of the multidimensional nonlinear landscape image. Combined with RGB feature decomposition method, the parameter vectorized feature extraction of multidimensional nonlinear landscape design was carried out, and the parameterized model of multidimensional nonlinear landscape view was extracted. Based on the parameterized model method, the multidimensional nonlinear landscape design is realized, and the quantitative analysis ability of multidimensional nonlinear landscape design is improved. The simulation results show that the mean of regression standard deviation is 0.567, the standard value is 0.753, and the F-test value is 0.655. Therefore, the visual feature expression ability of multidimensional nonlinear landscape design using the proposed method is better and the effect of landscape design is improved.
Purpose
The study aims to identify the issues that restrict students to show their real performance in the design due to lacking of self-advocacy skills and suggesting a new concept to overcome these difficulties.
Design/methodology/approach
The current literature was surveyed to form a comprehensive understanding of the issue. A case study has been taken for three years and two groups of students were taken. Results achieved and discussed.
Findings
The result of the study showed that those students who undergo an environment equipped with knowledge about self-advocacy can perform better and the success level is relatively higher amongst these students.
Originality/value
This study contributes to the current literature an original knowledge that has not been previously written about (empowering self-advocacy amongst students of interior architecture). The profession of interior architecture is a relatively new profession and faces challenges in fixing its feet on the ground that is why the subject can add a real value to it to alleviate the challenge.
The research work presented in this paper is focused on the investigation of dynamic characteristics and optimum design of rotating laminated composite multi-walled carbon nanotubes-reinforced magnetorheological elastomer (MWCNT-MRE) sandwich plate. Higher-order shear deformation theory (HSDT) and finite element (FE) formulations are employed to derive the governing equations of the composite MWCNT-MRE sandwich plate. The performance of the derived numerical model is validated by comparing it with the results available in the published literature. The free and forced vibrations of the composite MWCNT-MRE sandwich plate are examined at different magnetic fields and rotating speeds. Also, the optimal ply orientations of the MWCNT-MRE sandwich plate are identified using the developed numerical model coupled with a genetic algorithm (GA) to enhance the natural frequencies and loss factors.
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