A team was able to show that swimming movements are possible even without a central control unit. This not only explains the behavior of microorganisms, it could also enable nanobots to move in a ...

Bacteria can do it, amoebas can do it, even blood cells can do it: They all have the ability to move in a goal-oriented way in liquids. And they do so despite having extremely simple structures ...

Today on Hackaday Dictionary, we’re going to talk about the two basic types of control systems: open-loop and closed-loop. We’ll describe the differences between them and explore the various ...

A Skyryse employee demonstrates a tablet designed by the company to replace the traditional stick, rudders and cyclic used to control a helicopter. A licensed driver can easily hop behind the wheel of ...

Today on Hackaday Dictionary, we’re going to talk about the two basic types of control systems: open-loop and closed-loop. We’ll describe the differences between them and explore the various ...

The infrastructure to support the IoT is well established, extending far beyond the unseen legions of servers and data centres to reach right into our homes, offices and factories. Sitting at the edge ...

Modern applications demand faster, cheaper, and better motor control systems, and the performance demanded from embedded motor controllers is ever increasing. Motor controllers are expected not only ...

Artist's impression of a tiny swimming creature: The body is modelled as a chain with several mass points in the computer simulation. Bacteria can do it, amoebas can do it, even blood cells can do it: ...