Art infusion theory – the idea that displaying art in retail settings can positively impact consumer behavior – can be applied to the metaverse with similar results, a Cornell design researcher has shown.
Mako, co-founded by assistant professor Mohamed Abdelfattah, sets out to tackle one of artificial intelligence’s most pressing infrastructure challenges: optimizing the computing efficiency of graphics processing units.
The health care industry is increasingly relying on AI – in responding to patient queries, for example – and a new Cornell study shows how decision-makers can use real-world data to build sustainability into new systems.
Cornell Engineering researchers have developed a low-power microchip they call a “microwave brain,” the first processor to compute on both ultrafast data signals and wireless communication signals by harnessing the physics of microwaves.
An investigation into Axie Infinity, a blockchain-based video game where users receive cryptocurrency tokens for playing, provides a case study for the possible future of Web3, a decentralized, community-run internet.
Cornell researchers have built a programmable optical chip that can change the color of light by merging photons, without requiring a new chip for new colors – technology that could potentially be used for classical and quantum communications networks.
The eighth annual Celebration of Statistics and Data Science features nine speakers and celebrates Cornell’s rich history in statistics, data science, and mathematics.
A new system developed by Cornell Tech researchers helps users detect when their online accounts have been compromised — without exposing their personal devices to invasive tracking by web services.