A group of Chinese researchers has created a robot with a brain made of human stem cells. The technology is technically a "brain-on-a-chip," and the researchers have been working to train the robot to ...

As things get smaller, we can fit more processing power into devices like robots to allow them to do more things or interact with their environment in new ways. If not, we can at least build them for ...

New research suggests that a novel method for simulating biologically inspired robots could reduce the design and training ...

Overview AI software layer now determines robot productivity, scalability, and adaptability across dynamic industrial environments globally.Hardware is standard ...

DeepMirror ’s integration of OpenClaw pushes that decision layer closer to the robot. In this architecture, OpenClaw ...

Computer-on-modules chosen to provide the brains for the compute-intensive tasks of the robot. Advancements in computer-based intelligence and sensor technology, means previously stationary robots ...

Labor is breaking. Robots are scaling. The real bottleneck isn’t hardware, it’s orchestration. Train humans to lead machines ...

Soft robots that run on air instead of electricity are starting to behave less like simple inflatable toys and more like autonomous creatures. Built from flexible materials and intricate channels, ...

Designing robots requires precision and flexibility. When creating a humanoid robot system, there are mechanical and electrical considerations that you need to understand before beginning the actual ...

1. First, we must rethink traditional form factors. For too long, innovation has been trapped inside a static body. The future requires us to design a new type of device that can finally match the ...