A key paper on simulating viscoelastic free-surface flows (like impacting drops) using pressure Poisson equations.
A collaboration with showed that a handheld Sph camera could capture a full‑body 3‑D light field in seconds, enabling surgeons to visualize organs from any angle without moving the instrument. Early clinical trials suggest a 30% reduction in operative time for minimally invasive procedures. tommy king sph
| Feature | What It Does | Why It Matters | |---|---|---| | | A single, seamless dome of lenses, each < 10 µm in diameter | Eliminates stitching artifacts common in multi‑camera rigs | | Adaptive Photon‑Counting ASIC | Custom chip that records each photon’s arrival time and angle | Enables ultra‑low‑light imaging and 3‑D depth mapping without LiDAR | | Real‑Time Sph‑Fusion Engine | GPU‑accelerated software that converts raw spherical data into any virtual view instantly | Powers live VR/AR experiences and autonomous navigation | | Self‑Calibrating Surface | Embedded micro‑actuators that correct for temperature drift and mechanical stress | Guarantees precision in harsh environments (e.g., space, deep sea) | A key paper on simulating viscoelastic free-surface flows
That seed sprouted into , the startup he co‑founded in 2019 while still a graduate student at MIT. The company’s tagline— “Seeing the world without borders” —is a nod both to the literal spherical geometry of its sensors and to the philosophical ambition to break visual constraints in everything from autonomous vehicles to medical diagnostics. | Feature | What It Does | Why
If you’re away long hours, get two or provide lots of interactive toys. A lonely Sphynx gets destructive and depressed.