Home Article Practice Unimals

Unimals

2021-11-13 13:20  views:640  source:小键人3467959    

A novel way to optimise robots
It harks back to a 19th-century idea about evolution
It might sound obvious that if you want to improve a robot’s software,
you should improve its software. Agrim Gupta of Stanford University,
however, begs to differ. He thinks you can also improve a robot’s
software by improving its hardware—that is, by letting the hardware
adapt itself to the software’s capabilities.
As they describe in Nature Communications, he and his colleagues have
devised a way of testing this idea. In doing so, they have brought to robotics
the principles of evolution by natural selection. They have also cast the spotlight
on an evolutionary idea that dates from the 1890s, but which has hitherto
proved hard to demonstrate.
There is a wrinkle. The team’s robots, which they dub “unimals”,
are not things of metal and plastic. Rather, they are software entities that interact
with a virtual environment in the way that metal-and-plastic devices might interact
with a real one. Unimals are pretty simple, having spheres for heads and cylinders
for limbs (see picture). The environments through which they roamed were also simple,
and came in three varieties: flat arenas, arenas filled with hills, steps and rubble,
and ones that had the complexities of the second sort, but with added props
like cubes that needed to be moved around.
To begin with, the unimals were given a variety of randomly assigned shapes,
but with identical software running each of them. That software was a piece of
artificial intelligence called a deep evolutionary reinforcement learning algorithm,
or derl.
Newly created unimals started in a virtual boot camp, in which the derl learned enough
about the world to face the challenges to come. They were then entered into tournaments.
In groups of four, Dr Gupta put them through tests of agility, stability
and ability to manipulate objects. Each group’s winner was allowed to “breed”
by spawning a daughter with one mutation (an extra limb for stability, perhaps,
or extra rotation in a joint, for flexibility). This daughter was substituted for the
oldest unimal in the pool, assigned to a new group of four, and the process repeated.
Unimals were withdrawn from the fray after ten generations of evolution,
and Dr Gupta reckons about 4,000 varieties of them underwent training.
The team were surprised by the diversity of shapes that evolved.
Some had arms as well as legs. Others had only legs. There were bipeds,
tripeds and quadrupeds. Some moved like lizards.
Others resembled an octopus walking on land. Crucially, though,
the researchers found that the most successful unimals learned tasks in
half the time that their oldest ancestors had taken, and that those which
evolved in the toughest arenas were the most successful of all.
In this evolution of unimals’ morphology to promote the ability to learn,
Dr Gupta sees a version of something called the Baldwin effect.
In 1896 James Baldwin, an American psychologist, argued that minds evolve to
make optimal use of the morphologies of the bodies they find themselves in.
What Dr Gupta has shown, though in software rather than in the real, biological world,
is that the obverse can also be true—changes in body morphology can
optimise the way minds (or, at least, derls) work. Even though he held the software
constant from generation to generation, it became more efficient at learning as
the unimals’ bodies evolved.
Whether that discovery can be turned to account in the way robots are developed
remains to be seen. But it is certainly, in the jargon beloved of some businessfolk,
an out-of-the-box idea.
This article appeared in the Science & technology section of the print edition
under the headline "Balls, sticks and the Baldwin effect"



Disclaimer: The above articles are added by users themselves and are only for typing and communication purposes. They do not represent the views of this website, and this website does not assume any legal responsibility. This statement is hereby made! If there is any infringement of your rights, please contact us promptly to delete it.

字符:    改为:
去打字就可以设置个性皮肤啦!(O ^ ~ ^ O)