Master of Computer Science Thesis Defense

— 6:30pm

Location:
In Person - Gates Hillman 8102

Speaker:
OSCAR DADFAR, Masters StudentsComputer Science DepartmentCarnegie Mellon University
http://cardadfar.com/


An Angular Parameterization for Manifold Connections

Forming direct connections through one or multiple specular or refractive surfaces is particularly challenging: Any such connection must satisfy the laws of specular reflection or refraction at each of its vertices; as a result, valid direct connections occupy a very low-dimensional manifold within the space of all possible light paths, motivating the name manifold direct connections. Existing works on forming manifold direct connections treat this as an optimization problem: They use gradient descent to search for points on specular reflective or refractive surfaces that, when used to form a direct connection, the resulting path satisfies the laws of specular reflection or refraction, respectively. All of these works take advantage of the fact that these laws are efficiently differentiable, and thus lend themselves to search through gradient-based optimization. We plan to adopt the optimization approach for forming manifold direct connections over the initial direction of the direct path. This makes it possible to form direct connections through multiple specular reflective and refractive surfaces. Furthermore, it allows forming direct connections through different surface representations, including explicit (e.g., polygonal mesh), implicit (e.g., signed distance function, neural network), and point cloud representations. Finally, it provides a continuous parameterization of the search space (space of directions), which helps accelerate the convergence of gradient-based optimization.

Thesis Committee: Ioannis Gkioulekas (Chair) Matthew O’Toole

Additional Information

For More Information:
amalloy@cs.cmu.edu