Industry Briefing

A single destination for timely, editor-curated robotics news from around the world.

Video Friday: Atlas Versus a Fridge

Video Friday: Atlas Versus a Fridge

IEEE Spectrum robotics has released its latest edition of "Video Friday," showcasing a variety of innovative robotics videos and announcing upcoming robotics events scheduled for 2026. Notable events include ICRA 2026 in Vienna from June 1-5, and the Summer School on Multi-Robot Systems in Prague from July 29 to August 4. Among the highlights, Boston Dynamics' Atlas robot demonstrates significant advancements in strength and adaptability, showcasing its ability to lift heavy objects and navigate complex environments using advanced reinforcement learning and control systems. This marks a pivotal moment for humanoid robots as they transition from laboratory settings to dynamic industrial applications. Additionally, the SpikerBot, a robot designed to be programmed by wiring neurons instead of traditional coding, has successfully reached its funding goal on Kickstarter. Other innovations include wheeled-legged robots that enhance mobility and a biomimetic robotic hummingbird developed at the Advanced Vertical Flight Laboratory, which mimics natural flight dynamics. The release also features advancements in construction technology, with Dusty Robotics introducing the FieldPrinter 2, a more efficient and intelligent version of its predecessor, and Noble Machines showcasing their autonomous robots designed for hazardous industrial tasks at NVIDIA GTC 2026. These developments reflect a broader trend in robotics, where technology is increasingly integrated into real-world applications, enhancing efficiency and safety across various industries.

Humanoid-robots Video-friday Robot-videos Educational-robots Biomimetics Quadruped-robots
Scientists Build Living Robots With Nervous Systems

Scientists Build Living Robots With Nervous Systems

Researchers at Tufts University have developed a groundbreaking type of biological machine known as a "neurobot," which combines living cells with neural networks to create self-directed systems. This innovative advancement was reported in the journal Advanced Science last month. The neurobots, which are constructed from frog cells, are capable of swimming and responding to their environment through integrated neurons that allow for electrochemical signaling. The development of neurobots marks a significant evolution from earlier biological machines, known as xenobots, which were limited to mechanical movements. These new creations exhibit more complex behaviors, such as exploring their surroundings and adapting to stimuli, thanks to their ability to process information internally. The research aims to deepen understanding of how neural networks can lead to sophisticated behaviors, potentially paving the way for applications in tissue repair and environmental monitoring. The team, led by biologist Michael Levin, plans to extend this technology by incorporating human neural cells into their designs, creating "anthrobots." These living machines could be trained to perform specific tasks, such as detecting environmental pollutants. The commercial startup Fauna Systems, co-founded by Levin, is focusing on deploying xenobots for environmental sensing, aiming to provide real-time indicators of ecosystem health. Despite the promising potential of neurobots, researchers acknowledge significant technical challenges ahead. However, the initial focus remains on simpler xenobots, which are already demonstrating valuable capabilities in monitoring environmental conditions.

Bioengineering Frog Living-cells Biomimetics Bioinspired-robots
RobotToday Initiative

Robotics needs a service framework.

RSF defines a common language for robot service capability, lifecycle operations, certification pathways, and service-provider networks.