Robots may dominate rugby by 2050
Robots may dominate rugby by 2050
Elite athletes
with bionic implants, built-in chips to monitor their
performance and shirts embedded with nanotechnology
medicines to heal minor injuries could be taking the field
for the 2051 Rugby World Cup. They'll be refereed by robots
and watched by spectators lounging in the comfort of a
luxury hotel bedroom overlooking the pitch.
That's the
prediction of Victoria University Associate Professor Dr Ian
Yeoman, who has been examining how New Zealand will dominate
the world of rugby in another four decades.
It may
sound like science fiction, but Dr Yeoman says many of the
technologies needed to turn his vision into reality already
exist or are being developed.
Take the prospect of
elite, cyborg-style professional athletes-beings that are
half human and half robot. Dr Yeoman says genetic
engineering has given us the means to create designer babies
and the technology is already widely used in sports such as
horse racing.
He says implants are becoming more
common for organs, bones and limbs and are increasingly
accepted in the field of professional sport. He cites, for
example, South African double amputee Oscar Pistorius
qualifying to compete in the 2012 London Olympics using
carbon fibre prosthetic running blades.
"We're also
developing the means to create highly advanced nanobots
(microscopic robots) capable of entering the bloodstream to
feed cells and extract waste. Humans who have been injected
with these nanobots will evolve into cyborgs and would make
outstanding athletes," says Dr Yeoman.
The significant
advances taking place in nanotechnology are likely to lead
to development of fabric that can destroy airborne germs and
pollutants according to Dr Yeoman.
"We are already
using antimicrobial technology in shoes to keep them clean
and prevent athlete's foot."
He says some sports
consultants are predicting that injuries could eventually
become almost non-existent due to advances in gene therapy
and the ability to use sensor technology to predict an
injury before it occurs.
Advances in nutrition and
other areas of science will also impact on player health and
performance. "New therapies will cut recovery times from
injury by up to 300 percent and we can look forward to
individualised pre-match drinks and non-invasive injections
to optimise energy levels."
One change predicted by Dr
Yeoman that is likely to receive widespread welcome is the
introduction of rugby balls with radio frequency
identification chips and robot linesmen and light-emitting
systems to identify where fouls have occurred. "There'll be
no more blaming the ref," he says.
The way we watch
rugby is also likely to be radically different in the
future. "TV viewers will enjoy lifelike 3D images in their
indoor or outdoor home theatre while for really dedicated
fans, the ultimate experience will be staying at a hotel
that's part of the stadium complex."
Dr Yeoman says
the Marriott Hotel at England's Twickenham rugby ground
already includes six suites that overlook the
pitch.
In answer to rugby fans who think a game
dominated by technology would lose its edge, Dr Yeoman
points to the exponential growth in gaming. "We're already
playing games ranging from chess to rugby and football on
computers."
Dr Yeoman's thoughts on the future of
professional rugby form part of a book to be published in
the United Kingdom early next year called 2050 Tomorrow's
Tourism.
While his research focuses on what is
possible, rather than what is desirable, Dr Yeoman points
out that ethics are constantly changing.
"Things that
seem abhorrent now might be widely accepted in 20 years
time."
And delving into how rugby might look 40 years
on hasn't dampened Dr Yeoman's enthusiasm for the way the
game is played in 2011. He is a Scotland fan and has tickets
to watch Scotland play Argentina in a Rugby World Cup
fixture in Wellington on 26 September.
"I'm also
hoping Scotland will beat the All Blacks in the final in
Auckland-but that's a wish rather than a
prediction!"
ends