Friday, September 19, 2014

Robot with “morals” makes surprisingly deadly decisions

Robot with “morals” makes surprisingly deadly decisions

Anyone excited by the idea of stepping into a driverless car should read the results of a somewhat alarming experiment where a robot was programmed to save human lives… but often didn’t.

Anyone excited by the idea of stepping into a driverless car should read the results of a somewhat alarming experiment at Bristol’s University of the West of England, where a robot was programmed to rescue others from certain doom… but often didn’t.

The so-called ‘Ethical robot’, also known as the Asimov robot, after the science fiction writer whose work inspired the film ‘I, Robot’, saved robots, acting the part of humans, from falling into a hole: but often stood by and let them trundle into the danger zone.

The experiment used robots programmed to be ‘aware’ of their surroundings, and with a separate program which instructed the robot to save lives where possible.

Despite having the time to save one out of two ‘humans’ from the 'hole', the robot failed to do so more than half of the time. In the final experiment, the robot only saved the ‘people’ 16 out of 33 times.

The robot’s programming mirrored science fiction writer Isaac Asimov’s First Law of Robotics, ‘A robot may not injure a human being or, through inaction, allow a human being to come to harm.’

The robot was programmed to save humans wherever possible: and all was fine, says roboticist Alan Winfield, least to begin with.


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“We introduced a third robot - acting as a second proxy human. So now our ethical robot would face a dilemma - which one should it rescue?” says Winfield.

The problem isn’t - thankfully - that robots are enemies of humankind, but that the robot tried too hard to save lives. Three times out of 33, the robot manages, through a cunning series of lunges, to save BOTH.  The other times, it appears as if the robot can’t decide.

“The problem is that the Asimov robot sometimes dithers,” says Winfield. “It notices one human robot, starts toward it but then almost immediately notices the other. It changes its mind. And the time lost dithering means the Asimov robot cannot prevent either robot from falling into the hole.”

The robot 'dithers' about which 'human' (marked 'H robot') to save, and thus fails to save eitherThe robot 'dithers' about which 'human' (marked 'H robot') to save, and thus fails to save either


“It was a bit unexpected,” Winfield says. “There was clearly time to save at least one robot, but it just left them half the time. It stood there, and failed to rescue either, whereas there was clearly time to save at least one.”

Winfield says that he “did not expect” to make a robot capable of acting ethically, but having shared his paper with philosophers and ethicists, one has come back saying the robot was acting with a sort of “ethics”.

“As ever when you do experiments, the most interesting results are often the ones you don’t expect,” says Winfield. “We did not set out to build an ethical robot. We were studying the idea of robots with internal models of the outside world. We just added an ethical decision-making layer to the logic: we call it the Consequence Engine. That’s the bit that makes the robot act ‘ethically’.”

The research could be important, as driverless cars and other robotic systems are entrusted with (real) human lives already, and could be launched to the public in the near future.

“We’re finding our way,” says Winfield. “We’ve set out one proposition about how to create an ethical robot, we’re not claiming this is the final answer. We’ve started to share our work with other researchers - but this is an initial exploration. We certainly did not expect to make an ethical robot.”



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