Toward a Soft Machine

by Paul Gilster on January 26, 2007

When Project Daedalus was being designed back in the 1970s, the members of the British Interplanetary Society who were working on the starship envisioned it being maintained by ‘wardens,’ robots that would keep crucial systems functional over the 50-year mission to Barnard’s Star. Invariably, that calls up images of metallic machines, stiff in construction and marked by a certain ponderous clumsiness. True or false, it’s a view of robotics that has persisted until relatively recently.

But if you’re going to do long-term maintenance on a starship, you’d better be more flexible. And that makes a Tufts initiative interesting not just from a space perspective but for applications in medicine, electronics, manufacturing and more. The Biomimetic Technologies for Soft-bodied Robots project aims to produce machines that draw on the model of living cells and tissues. Five Tufts departments will work with a $730,000 grant from the W.M. Keck Foundation to get the job started.

Check out what’s going on at the university’s Biomimetic Devices Laboratory. The researchers here are calling for us to stop evaluating the line between living and mechanical on the basis of materials. “Many machines incorporate flexible materials at their joints and can be tremendously fast, strong and powerful,” says Tufts biology professor Barry Trimmer, “but there is no current technology that can match the performance of an animal moving through natural terrain.”

Trimmer is a neurobiologist whose work with caterpillars feeds directly into the robot concept. How do you build a simple machine that can move flexibly without joints? Like caterpillars, the new robots are to be soft, but unlike them, the robots will also be capable of collapsing into small volumes, and unlike today’s robots, they’ll be able to crawl along wires or burrow themselves into tiny spaces to do their work. Thus does biology meet nano-fabrication and bioengineering, with results that may prove exceedingly useful for long-haul space missions.

Back to the Daedalus wardens for a moment. They were designed not only to test and repair key onboard systems, but also to operate thousands of kilometers away from the ship as needed, coordinating a variety of experiments through the ship’s main computer. But they were envisioned as weighing five tons apiece and in the thinking of that era, would have been incapable of the kind of adaptive — one could say ‘evolutionary’ — behavior that is suggested by flexible hardware and genetic algorithms.

For software that generates variations in its own code and tests a variety of mutations has been under study for some time — look at the work Jordan Pollack and Hod Lipson have done at Brandeis, for example. Wedding genetic algorithms with a new flexibility in robotic structure promises great things for missions that must proceed without human intervention. Specialized robots will continue to fly on our space missions, but in forms that look less and less like the Daedalus wardens.

And incidentally, if you want to see those Daedalus wardens up close, the best reference is T. J. Grant, “Project Daedalus: The Need for On-Board Repair,” in A. R. Martin, ed. Project Daedalus Final Report. Supplement to the Journal of the British Interplanetary Society, 1978, pp. S172–S179.

{ 3 comments }

ljk January 26, 2007 at 10:51

Two images of the original Warden design here:

http://www.bisbos.com/rocketscience/spacecraft/daedalus/daedaluswardens.html

And here:

http://website.lineone.net/~geowood/warden.jpg

As impressive as Daedalus was in its day and how it inspired
people to think about making real interstellar vessels, we are
already coming to see how quickly advances in technology
are making the idea of such a big and bulky machine obsolete.

Adam January 27, 2007 at 1:23

Hi All

A bunch of small robots will be needed on any self-maintaining vehicle, like “Daedalus”, of all sorts of configurations. Many will have to be either self-healing or easily repaired, so as not to add to the repair burden. A Warden could well be more like a mobile repair station that the sub-bots park on when not deployed.

Self-healling construction would help too, but it’s hard to tell what form that would take or require. “Daedalus” has a lot of complex sub-systems – refrigeration, science, communications, sub-probes and auxillary power-systems. Quite a maintanence/repair job especially since several reconfigurations were considered – for example, the second-stage propulsion bell would become a huge parabolic antenna.

Adam

ljk April 22, 2008 at 10:27

Researchers Create Self-Healing Computer Systems for Spacecraft

PhysOrg.com April 21, 2008

*************************

University of Arizona researchers
are working on hybrid
hardware/software systems that one
day might use machine intelligence
to allow spacecraft to heal
themselves. They are using Field
Programmable Gate Arrays to build
these self-healing systems. FPGAs
combine software and hardware to
produce flexible systems that can be
reconfigured at the…

http://www.kurzweilai.net/email/newsRedirect.html?newsID=8492&m=25748

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