A framework for solving parabolic partial differential equations
A new algorithm solves complicated partial differential equations by breaking them down into simpler problems, potentially guiding computer graphics and geometry processing.
A new algorithm solves complicated partial differential equations by breaking them down into simpler problems, potentially guiding computer graphics and geometry processing.
“Alchemist” system adjusts the material attributes of specific objects within images to potentially modify video game models to fit different environments, fine-tune VFX, and diversify robotic training.
Associate Professor Jonathan Ragan-Kelley optimizes how computer graphics and images are processed for the hardware of today and tomorrow.
Yilun Du, a PhD student and MIT CSAIL affiliate, discusses the potential applications of generative art beyond the explosion of images that put the web into creative hysterics.
Researchers develop a new method that uses multiple models to create more complex images with better understanding.
MIT researchers create KineCAM, an instant camera that yields images that appear to move.
MIT undergraduates whose research areas explore artificial intelligence, space, and climate change honored for their academic achievements.
CSAIL's SprayableTech system lets users create large-scale interactive surfaces with sensors and displays using airbrushed inks.
In place of flat “breadboards,” 3D-printed CurveBoards enable easier testing of circuit design on electronics products.
CSAIL system could help athletes, dancers, and others better analyze how they move.
CSAIL system converts 3-D movies into a more TV-friendly format.
Prototype display enables viewers to watch a 3-D movie from any seat in a theater.
Algorithms could offer new tools for graphics software or reveal structural defects.
Exploiting video game software yields broadcast-quality 3-D video of soccer games in real time.
A simulation technology from movies is used to predict coiling patterns in the lab.