Insects, Cabbage
Can Teach Engineers
BY DAVID R. BUTCHER
Forget textbooks. Engineers are advised to look
to nature for teaching. In particular, according to scientists
and researchers, engineers can learn a few things
from ants, bees and Zen-fully smelly cabbage. Through millions
of years of evolution, many species have provided a
variety of solutions to problems that affect humans, particularly
engineers. As such, perhaps engineers’ new teachers should be insects and plants.
We should care about insects “because human life depends more and more on engineering
systems that must solve similar problems to function efficiently,” explained
Francis Ratnieks of the University of Sheffield in England, in a Christian
Science Monitor (CSM) article last week. Insects probably have evolved a variety of solutions
to the foraging problem, Dr. Ratnieks said, as the biologist then cited the foraging
strategy of pharaoh’s ants.
In a Nature journal article earlier this year,
Ratnieks noted how pharaoh-ant foragers’ efficient movement to and from a food supply
exemplifies how “natural selection has made insect societies good at solving
a problem that is simple to state but hard to solve… .” The problem frequently
confronts designers of traffic flow, electronic messaging, electricity transmission
and other network systems, Christian Science Monitor pointed out.
How do pharaoh’s
ants know which way to go? Because social insects have been solving this complex
dynamic problem for millions of years, they have probably evolved some simple
and elegant solutions.
The CSM article explained:
By laying out a chemical
trail in a pattern in which the junction of three trails forms
a Y. The stem of the Y leads to or away from the nest. It also intersects
the two arms at a wide angle while the arms form a smaller interior
angle of about 60 degrees. The ants have enough geometrical instinct
to sense the difference in angles and follow the right trail.
The article also noted research published last
week in the Proceedings of the National Academy of Sciences that
showed “honey bees and bumble bees have some wisdom to share.” (Bees
actually are flying insects closely related to ants.) These small
insects’ flapping flight “carries aerodynamics into a region where
conventional theory fails.” These bees have actually evolved a flight
system different from that of most small, flying insects: while some
insects swing their wings in large arcs in order to fly, the bees’ wings
move in significantly shorter arcs while flapping at a relatively
high frequency. This short-arc, high-speed wing motion gives the
bees a much wider power range than other insects enjoy. Perhaps this
knowledge may be advantageous in the aerodynamics field’s advancement.
Zen-Ful Cabbage
Finally, there is the skunk cabbage.
Yes, engineers could possibly learn quite a bit from this, a species
of arum lily (whose Japanese name, Zazen-sou, means Zen
meditation plant). The smelly skunk
cabbage can maintain its own internal
temperature at a comfortable 16-24°C in all weathers, even on a freezing day.
In fact, said a recent New Scientist article on the subject, the plant “can even
melt snow as it warms itself to protect its delicate flowers. The plant generates
heat by burning starch in special cells,” but it is a mystery still exactly how
it controls its internal thermostat.
According to one of the authors of a new
study (reported news from the American Institute of Physics), only one other
plant species—the Asian sacred lotus—is homeothermic, that is, able to maintain
its own body temperature at a certain level.
Research suggests that the regulation
operates in accord with an algorithm based on mathematical chaos theory,
explained Japanese scientists Takanori Ito and Kikukatsu Ito in the
November Physical Review E. Using a
statistical technique called non-linear
forecasting, the two scientists found
the temperature fluctuation varies in a
way specified by a unique mathematical
algorithm. New Scientist magazine
reports that the two scientists have now
built and are testing a temperature control
that incorporates the algorithm.
Design problems may simply be
solved by looking to nature for guidance.
Ants may help with traffic patterns,
bees may offer insights into
aerodynamics, and skunk cabbage… well…skunk cabbage may reveal new ways to keep
us warm during these frigid winters of which we are soon to see more.
David R. Butcher is the new media editor for Thomas
Publishing.
Reprinted with permission of ThomasNet Industrial
Trends. First printed December 6, 2005 on www.ThomasNet.com
References
Nature teaches engineers new tricks
by Robert C. Cowen
Christian
Science Monitor, Dec. 1, 2005
Nature journal article
Zen and the
art of central heating maintenance
by Stephen Battersby
New Scientist,
Nov. 19, 2005
Zen and the Art of Temperature Maintenance
by Phil
Schewe and Ben Stein
American Institute of Physics, Nov. 9, 2005
Nonlinear dynamics of homeothermic temperature control
in skunk cabbage, Symplocarpus foetidus
by Takanori Ito and Kikukatsu
Ito
Physical Review E, Nov. 7, 2005 |
