We might be one step closer to an Internet-of-things reality.
University of Washington engineers have created a new wireless communication system that allows devices to interact with each other without relying on batteries or wires for power. (more…)
Territorial song sparrows use increasingly threatening signals to ward off trespassing rivals. First an early warning that matches the intruder’s song, then wing waving – a bird’s version of “flipping the bird” – as the dispute heats up, and finally, if all other signals have failed, attack.
This hierarchical warning scheme, discovered by researchers at the University of Washington, adds nuance to a communication system that has been long-used as a model to study how people use and learn language (more…)
EAST LANSING, Mich. — Dividing tasks among different individuals is a more efficient way to get things done, whether you are an ant, a honeybee or a human.
A new study by researchers at Michigan State University’s BEACON Center for the Study of Evolution in Action suggests that this efficiency may also explain a key transition in evolutionary history, from single-celled to multi-celled organisms.
The results, which can be found in the current issue of the Proceedings of the National Academy of Sciences, demonstrate that the cost of switching between different tasks gives rise to the evolution of division of labor in digital organisms. In human economies, these costs could be the mental shift or the travel time required to change from activity to another. (more…)
