ANALYSIS OF SOLUTION OF GEOMETRICALLY PARAMETRISED PROBLEMS WITHIN COMPUTER-AIDED DESIGN ENVIRONMENT SYSTEM

This paper presents an analysis of the solution of geometrically parametrized problems using a CAD (Computer-Aided Design) environment system. The objective of this study is to investigate the effectiveness of utilizing CAD tools for solving geometric problems that involve parametric variations. The methodology employed involves the development of a CAD system capable of handling geometric parametrization and performing analysis on the resulting variations. The potential of CAD systems to efficiently handle complex geometric problems with parametric inputs. The system enables the user to specify geometric parameters and automatically generates variations of the design accordingly. Various analysis techniques, such as geometric constraint solving and optimization algorithms, are employed to evaluate the resulting variations and identify optimal solutions. This study demonstrates the effectiveness of the CAD environment system in solving geometrically parametrized problems. The system successfully generates a wide range of design variations based on user-defined parameters and efficiently performs analysis on each variant. The use of geometric constraints and optimization algorithms further enhances the system's ability to identify optimal solutions. The potential of CAD environment systems for handling geometrically parametrized problems. The findings contribute to the advancement of CAD technology by providing insights into the capabilities and limitations of such systems. This knowledge can inform the development of improved CAD tools for solving complex geometric problems within various domains, including engineering, architecture, and industrial design.