Programmable modeling design and Four-dimensional composition: Research on Intelligent Dynamic adaptability

This research, based on a doctoral dissertation, proposes a theoretical approach to programmable styling design and four-dimensional composition to address the scientific issue of achieving intelligent dynamic adaptation of products through programmable styling and four-dimensional composition. Four-dimensional composition superimposes acoustic, optical, and electrical elements onto traditional three-dimensional design, integrating innovative designs of intelligent hardware/software, materials, and forms. Technically, a system was developed and its feasibility tested, applied to pendant lights and speakers: the pendant light intelligently adjusts illumination via image recognition and axis rotation/angle adjustment technologies (no rotation for single person, gradual rotation for multiple people, reset and shutdown when people leave), realizing ecological energy conservation and dynamic scene adaptation; the speaker controls body swinging amplitude based on music rhythm via Bluetooth connection, enhancing interactive experience. The appearance follows traditional three-dimensional aesthetic principles, integrating material and craftsmanship considerations. Finally, the dynamic adaptive design and development of the two products were completed, verified through functionality, feasibility, and ecological tests.