The global multiomics market, valued at $3.41 billion in 2025, is forecast to reach $12.82 billion by 2036, growing at a 13.31% CAGR from 2026 to 2036. Growth is driven by precision medicine, ...
Inspecting bridges, creating digital twins, and making self-driving cars safer are just a few uses, but many different industries will find uses for AI models that reason about 3D space.
Advances in virtual and augmented reality, spatial computing, and other technologies offer chances to work with data more ...
Artificial intelligence (AI) in research histopathology is turning whole-slide images of preclinical tissue into structured, quantitative data rather than a pathologist's subjective impression alone.
The Spatial Analysis Lab (the SAL) is a mapping lab dedicated to thoughtful and creative spatial data collection, analysis, and visualization. We strive to promote spatial literacy and spatial justice ...
An AI tool built to find faint cancer markers in routine tissue slides is headed for lab trials, as QIMR Berghofer tests a ...
Join Dr. Solehah Jasmee, Senior Engineer at the MIMOS Failure Analysis Lab, for an upcoming webinar exploring how submicron ...
GIS Analysis is a useful tool for transportation policy, and this piece applies the GIS-analysis model to railroad grade crossing safety in North Carolina.
This three-part webinar series brings together leading researchers to explore how spatial biology is evolving - from data ...
Many thanks to long-time friend-of-the-blog Dr Colin Khoury for this latest contribution. Conservation gap analysis using Geographic Information System (GIS) tools relies on several sources of ...
True three-dimensional (3D) spatial biology provides a more physiologically relevant view of tissue biology and cellular interactions than conventional single-cell or two-dimensional (2D) thin-tissue ...