No body, no dopamine, no problem. Scientists have successfully coached lab-grown brain tissue to solve a classic robotics challenge, proving that the will to learn is hardwired into our neurons.

Flexxbotics announced further enhancements to the S7 Communications (S7Comm) transformer connector driver within the Flexxbotics open-source project on GitHub.

As artificial intelligence (AI) evolves beyond generative chat systems into agentic AI capable of autonomous action, a ...

During 2025, S&SE deployed next-generation regenerative thermal oxidizer (RTO) and direct-fired thermal oxidizer (DFTO) systems achieving greater than 99% destruction efficiency of VOCs and hazardous ...

Autonomous vehicles have made remarkable progress over the past decade, accumulating millions of miles and performing well on highways, in controlled test areas, and in select urban zones. However, ...

‘PDS’ Enables Water-Based Direct-to-Chip Cooling for High-Performance AI Infrastructure ...

Ressler Land & Cattle, a family-owned livestock and farming operation, today announced it will operate under a new name: Red ...

Edtech platform introduces curated knowledge engine drawing from publicly available resources of more than 300 leading experts to deliver actionable insights on demand.

A few blobs of lab-grown brain tissue have demonstrated a striking proof of concept: living neural circuits can be nudged toward solving a classic control problem through carefully structured feedback ...

ZHUHAI, GUANGDONG, CHINA, February 5, 2026 /EINPresswire.com/ -- As industrial facilities worldwide prioritize ...

A bioinspired robotic eye could inspire the next generation of autonomous vehicles, drones and industrial robots.

Pharaoh Neuro’s cerebrospinal fluid management system has already demonstrated positive prospective trial results.