Signal capture is at the forefront of perceiving and understanding the environment; thus,
imaging plays a pivotal role in mobile vision. Recent unprecedented progress in artificial …

Active stereo cameras that recover depth from structured light captures have become a
cornerstone sensor modality for 3D scene reconstruction and understanding tasks across …

Conventional stereo suffers from a fundamental trade-off between imaging volume and
signal-to-noise ratio (SNR)--due to the conflicting impact of aperture size on both these …

Active stereo systems based on structured light are widely used for 3D vision in various
applications, which project specially designed patterns onto object surfaces to encode each …

Active stereo is widely used in 3-D sensing for its advantages in cost and spatial resolution.
Active stereo systems project hand-crafted patterns onto object surfaces to capture depth …

Modern design of complex optical systems relies heavily on computational tools. These
frequently use geometrical optics as well as Fourier optics. Fourier optics is typically used for …

Typical projectors are designed to programmably display 2D content at a single depth. In
this work, we explore how to engineer a depth-varying projector system that is capable of …

Flash illumination is widely used in imaging under low-light environments. However,
illumination intensity falls off with propagation distance quadratically, which poses significant …

We present GS-ProCams, the first Gaussian Splatting-based framework for projector-camera
systems (ProCams). GS-ProCams significantly enhances the efficiency of projection …

High-speed 3D shape sensing is an essential technology for three-dimensional recognition
and manipulation in dynamic scenes. However, conventional high-speed sensing methods …