The integration of deep reinforcement learning with PD control in humanoid robots enhances gait stability and patient comfort during lower limb rehabilitation.

During the acquisition of correct rejection response, rankings of functional connection separated for cortical and subcortical regions, which is predictive of the peak timing of visual information ...

Vast Data expands AI Operating System with global control plane, zero-trust agent framework and deeper Nvidia integration - ...

Virtual emulation reduces costs to about one-tenth of physical hardware, offering a more scalable and flexible solution for ...

Conventional electronics process information leveraging the electrical charge of electrons. Over the past few decades, some ...

Integrated motion control allows all kinds of robots to tackle a range of tasks with precision, in contrast with conventional ...

The US Air Force has demonstrated manned-unmanned teaming between an F-22 fighter and an MQ-20 Avenger drone during a live ...

AI agents are fast, loose and out of control, MIT study finds ...

E pluribus unum—"out of many, one"—is not only a motto for the United States; it's a good credo for microrobots. A research collaboration between Cornell and the Max Planck Institute for Intelligent ...

Scientists have observed a new microscopic mechanism enabling precise control of the magneto-optical properties of excitons in alloys of two-dimensional semiconductors. This discovery opens up ...

You were just another C.T.R.L. employee clocking the graveyard shift, filing reports on things that shouldn’t exist. Now, the facility is under a sudden, total lockdown. Your main objective? Survive ...