Aviva Rutkin

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If driverless cars were improved markedly and all vehicles were autonomous, accidents and fatalities would likely experience a steep decline. But a shift to robocars will be a gradual one, and highways and streets will long be a mix of both humans and computers at the wheel. How will those two forces learn to share the road? It’ll take time and research.

From Aviva Rutkin at New Scientist:

IN THE near future, you may have to share the road with a robot. Or perhaps we should say that a robot will have to share the road with you.

At the University of California, Berkeley, engineers are preparing autonomous cars to predict what we impulsive, unreliable humans might do next. A team led by Katherine Driggs-Campbell has developed an algorithm that can guess with up to 92 per cent accuracy whether a human driver will make a lane change. She is due to present the work next month at the Intelligent Transportation Systems conference in Las Palmas de Gran Canaria, Spain.

Enthusiasts are excited that self-driving vehicles could lead to fewer crashes and less traffic. But people aren’t accustomed to driving alongside machines, says Driggs-Campbell. When we drive, we watch for little signs from other cars to indicate whether they might turn or change lanes or slow down. A robot might not have any of the same tics, and that could throw us off.

“There’s going to be a transition phase,” she says.

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Putting ants to shame, Stanford University’s Biomimetics Dextrous Manipulation Laboratory has produced tiny robots, which operate similar to inchworms, that can haul 100 hundred times their weight. Huge long-term implications for construction and emergency rescues, like the one we’re currently witnessing in Nepal. From Aviva Rutkin at New Scientist:

Mighty things come in small packages. The little robots in this video can haul things that weigh over 100 times more than themselves.

The super-strong bots – built by mechanical engineers at Stanford University in California – will be presented next month at the International Conference on Robotics and Automation in Seattle, Washington.

The secret is in the adhesives on the robots’ feet. Their design is inspired by geckos, which have climbing skills that are legendary in the animal kingdom. The adhesives are covered in minute rubber spikes that grip firmly onto the wall as the robot climbs. When pressure is applied, the spikes bend, increasing their surface area and thus their stickiness. When the robot picks its foot back up, the spikes straighten out again and detach easily.

The bots also move in a style that is borrowed from biology.•

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