Neural Topology and Manufacturing Optimization
Published:
A neural network-based computational framework for simultaneous optimization of structural topology, curved layers, and path orientations for fiber-reinforced thermoplastic composites.
Portfolio
This portfolio showcases my research projects, software tools, and 3D printing works in the fields of computational geometry, additive manufacturing, and robotics. Each project includes detailed descriptions, key features, and links to code repositories and publications.
Neural Slicer for Multi-Axis 3D Printing
Published:
A neural network-based computational pipeline as a representation-agnostic slicer for multi-axis 3D printing. This advanced slicer can work on models with diverse representations and intricate topology.
Implicit Function DLP Slicer
Published:
A DLP slicer for implicit function representations, enabling efficient slicing of complex geometries for digital light processing 3D printing.