Figure 02's human-like gait is the product of the company's simulated reinforcement learning system, and is just the beginning of its plans to make its robots perform physical tasks more naturally.

The combination of artificial intelligence and neuroscience allows a paralyzed man to manipulate a robotic arm by using his brain to imagine movements.

Developed by engineers at the University of Leeds, the robot can generate high-resolution three-dimensional ultrasound images ...

Researchers at the Massachusetts Institute of Technology have developed a soft artificial muscle that mimics the structure ...

Transform your workspace with an ergonomic office chair designed to support your posture and enhance comfort while working.

After Scott Kelly spent a year on the International Space Station, the astronaut returned to Earth in 2016 shorter, more nearsighted, lighter and with new symptoms of heart disease that his ...

Rise Robotics is setting its sights on getting its name in the Guinness Book of World Records for the world's strongest non-hydraulic robotic arm – a record that has remained uncontested for ...

Abstract: Flexible multidirectional strain sensors that can distinguish different strain directions and magnitudes have attracted increasing attention. However, previous designs of multidirectional ...

Even if at some level they are pretty scary, it's always nice to see robots getting enhanced capabilities. After all, we've made them to help us, so that's what they should do, evolve to be able ...

Chinese robotics company Zhongqing Robotics, also known as EngineAI, has officially entered the humanoid robotics scene by releasing a video showcasing what it claims is the world’s first humanoid ...