Most search-and-rescue robots are big, clunky, and travel in straight lines. By studying how ants move through confined spaces, researchers hope to build better bots that can search for disaster victims buried in rubble.
Most search-and-rescue robots are big, clunky, and travel in straight lines. By studying how ants move through confined spaces, researchers hope to build better bots that can search for disaster victims buried in rubble.
Most search-and-rescue robots are big, clunky, and travel in straight lines. By studying how ants move through confined spaces, researchers hope to build better bots that can search for disaster victims buried in rubble.
Most search-and-rescue robots are big, clunky, and travel in straight lines. By studying how ants move through confined spaces, researchers hope to build better bots that can search for disaster victims buried in rubble.
Most search-and-rescue robots are big, clunky, and travel in straight lines. By studying how ants move through confined spaces, researchers hope to build better bots that can search for disaster victims buried in rubble.
A cold, clammy sweat breaks out on my skin and I can’t rid myself of the feeling that the boards above my head are about to collapse, to bury me alive under the rubble.
A strong aftershock ripped through northeastern Japan, killing two, injuring dozens and piling misery on a region still buried under the rubble of last month's devastating tsunami.
A strong aftershock ripped through northeastern Japan, killing two, injuring dozens and piling misery on a region still buried under the rubble of last month's devastating tsunami.