Miniature organs grown in the lab can organize themselves into complex shapes, which enables scientists to use them to study disease. The trouble is they never do it the same way twice, which has made ...

The Vantage NXT system provides three encoder inputs that enable users to track position, movement, and rotation during data acquisition. Researchers can use encoder count data for Pulse-on-position ...

Explore Python Physics Lesson 10 and learn how to visualize a mass on a spring in 3D using Python simulations. This lesson walks you through modeling oscillatory motion, understanding spring dynamics, ...

The CRAFT Project (www.craft-project.net), led by Dr. Carlo Rindi Nuzzolo from 2022 to 2025, received research funding from the Marie Skłodowska-Curie Actions under the European Union's Horizon 2020 ...

Abstract: Unsigned distance fields (UDFs) provide a versatile framework for representing a diverse array of 3D shapes, encompassing both watertight and non-watertight geometries. Traditional UDF ...

In this report, we introduce UltraShape 1.0, a scalable 3D diffusion framework for high-fidelity 3D geometry generation. The proposed approach adopts a two-stage generation pipeline: a coarse global ...

Researchers at Science Tokyo have developed a neural inverse rendering method that accurately reconstructs the three-dimensional (3D) shapes of moving objects using only three standard projection ...

d-Matrix completed a US$275 million Series C round in early November, raising its valuation to US$2 billion, and is speeding up the commercialisation of its 3D In-Memory Compute (3D IMC) technology ...

Launching large, rigid satellite dishes into orbit is an expensive and energy-hungry task. But what if those massive structures could start out flat—and then unfold or “grow” into their curved shapes ...

Decades of research has viewed DNA as a sequence-based instruction manual; yet every cell in the body shares the same genes – so where is the language that writes the memory of cell identities?