杏吧原创

Chic geek

IF DRESSING well is a sign of advanced civilisation, you could be forgiven
for thinking that we鈥檙e heading for disaster. Science fiction tends to clothe
the next generation in drab stuff: dull white-on-white spacesuits or rags,
animal hides and other post-Apocalyptic apparel. Only extraterrestrials boast
anything like a decent wardrobe, what with their shiny metallic tunics,
form-fitting body armour and multi-tentacled cardigans.

But fret not, real life will be different. Right now, teams of chemists,
physicists, designers, and even a few electrical engineers, are busy weaving the
high-tech future of haute couture. If these fashion visionaries are right,
tomorrow鈥檚 garb will do a lot more than merely keep you warm, cool or reasonably
safe from embarrassment. Clothing of the future will be smart. You鈥檒l know
because it will tell you.

鈥淐lothes will completely organise your life,鈥 says Jenny Tillotson, director
of the Sensory Design Lab in London, a spin-off from the Massachusetts Institute
of Technology鈥檚 Media Lab. 鈥淵ou will not need to wash them because they will
self-wash, self-condition and repair themselves,鈥 she says. These clothes will
be your friend and confidant. They will keep you well by administering
medication and daily vitamins. They will help you remember your car keys and
what you did last holiday. They might even stop you from wearing plaid with
paisley.

One of the most ambitious smart clothing projects began in December 1999 at
Starlab, a private research group in Brussels. Starlab鈥檚 chief science officer,
Walter van de Velde, manages the project dubbed 鈥渋-Wear鈥濃攕hort for
鈥渋ntelligent wear鈥 or clothing that thinks.

According to van de Velde, i-Wear aims to create clothing that communicates
with the world. Levi鈥檚 already sell a range of jackets complete with built-in
connectors that link mobile phones or MP3 players in the pockets to headphones
or microphones in the collar. Eventually, says van de Velde, electronics will be
invisibly embedded everywhere. The fabric itself will be woven from conductive
fibres capable of generating electrical power from body heat or movement.
Buttons and zippers will contain information-gathering sensors. Imagine a
wedding dress that records all of the sights and sounds of the day, including
that heart arrhythmia at the moment you say, 鈥淚 do鈥.

Not that geek chic is new, of course. Researchers at MIT鈥檚 Media Lab, for
example, have been tinkering with wearable electronics since the 1970s. A few
companies already sell ready-to-wear computers, at prices ranging from
$2,000 to $10,000. They generally have a processor chip and
associated circuitry the size of a small textbook, a battery worn on a belt,
plus a wraparound wrist keyboard, headphones and a tiny computer screen
projecting from a pair of glasses.

But these wearable computers are already old hat, says Alex Pentland, head of
the Media Lab at MIT. 鈥淭he first thing is to take the idea of computers and
programming in clothing and throw it out.鈥 Even everyday apparel will be imbued
with extraordinary powers. 鈥淚n the future, people will want their clothing to be
functionally intelligent, able to do its thing without our help,鈥 he says. In
other words, you won鈥檛 need an owner鈥檚 manual to don that version 3.1 Armani
suit.

Some significant advances are already well established. Synthetic fabrics
like Gore-Tex and Spandex are commonplace. But numerous textile manufacturers
worldwide are marketing fabrics threaded or plated with silver, copper or
stainless steel. The metals are supposed to inhibit odour and kill bacteria.

Metal underpants have other ways of keeping you healthy. Several Internet
companies sell dresses, shirts, caps, bras and boxer shorts impregnated with
metals that reportedly keep out the high-frequency electromagnetic radiation
some people believe causes cancer. They鈥檙e also marginally better looking than
the old standby: tinfoil.

But most future clothing will be interactive. Take
microcapsules鈥攎icrometre-sized bags made from ceramics, polymers or
gelatin films. You can fill these capsules with dyes, drugs or a variety of
cosmetics. Mix the capsules with polyurethane or silicone binders and spray them
onto textiles for clothing with extra oomph.

French fashion designer Elisabeth de Senneville, for example, has created
dresses with microcapsules containing heat-sensitive dyes that change colour
according to body temperature and dresses that release a continual dribble of
moisturising sunscreen or wafts of perfumes. She even has dresses with stripes
of moisture-sensitive pigments that change colour according to the weather. They
will turn blue when the sun鈥檚 out, grey on cloudy days and pink when it鈥檚
raining.

Japanese manufacturer Kanebo is promoting a nylon filament yarn embedded with
microscopic ceramic spheres that constantly release silver ions that kill
bacteria. Company officials say the washable, antibacterial yarn is ideal for
undergarments, swimsuits, socks, uniforms and towels. Since the microcapsules
are bound chemically to the fibres, the manufacturers claim they should retain
their particular properties through several dozen washings. And last year,
Victoria鈥檚 Secret, a company based in Reynoldsburg, Ohio, filed a patent for
tights loaded with theophylline acetate (THA), a compound they claim can treat
cellulite. THA is bound to the fabric with an organic polymer, but when the
tights are worn, sweat from the skin raises the pH of the fabric
slightly and breaks the polymer glue, releasing the THA onto the skin.

Other benefits of future clothing are more obvious. The Intelligent Polymer
Research Institute at the University of Wollongong in Australia is working on
the 鈥渟mart bra鈥. The bra will automatically adjust its support to match extra
strain on the straps and bra cups during sports, for example.

It won鈥檛 reach the shops for at least two years, says researcher Kelly-Ann
Bowles. Test bras have a tiny computer chip embedded in the strap, wired to a
fabric sensor capable of monitoring stresses upon the bra. When the chip detects
excessive movement, it signals a second layer of electricity-conducting polymer
fabric to contract, causing the bra to become more rigid and supportive. If it
gets too tight, the chip orders the polymer fabric to loosen up. Prototypes rely
on batteries, but researchers aim to make the two fabric layers react and
communicate with one another chemically.

Back at Starlab, van de Velde and his team are developing a prototype
ensemble of multiple layers of specialised clothing. The clothing itself is
ordinary鈥攚hat sets it apart are the i-Wear accessories. The 鈥渆nergy supply
layer鈥 consists of various compartments housing small, lightweight batteries
that supply power to all the other layers. Future versions, says van de Velde,
might have special conductive fibres that generate electricity from movement, or
flexible solar cells.

A 鈥渕otion-sensing layer鈥 monitors the wearer鈥檚 location, via satellite, and
what the body is doing via sensors that track conditions like ambient
temperature, motion, sound and light. Another layer, closest to the body,
contains sensors that monitor body functions like heartbeat, blood pressure and
temperature. All of this data is transmitted wirelessly, via flexible antennas
built into each layer, to a 鈥渕emory layer鈥, where chips stash away the
information for future use. A 鈥渟ound layer鈥 contains embedded microphones and
speakers, perhaps a camera, to record daily goings-on. And an outer 鈥渟torage
layer鈥 features special pockets for personal items like keys, money and a
cellphone.

These pockets are electronically coded to match specific items. If you leave
the house without your wallet, for example, a processor chip on your lapel lets
you know. The current prototype is a small, disc-shaped electronic device
nicknamed Spyglass. Basically it鈥檚 a tiny PC with a small screen and a couple of
buttons to control it. You use Spyglass to request data, such as battery levels
for example, or to switch on the built-in microphone or play back recordings
through the suit鈥檚 speakers.

For now, news that any items are missing from the pockets is flagged up as a
message on the Spyglass screen. Future versions might employ other
attention-getting features, such as blinking lights or vibrations, or might
simply whisper something in your ear.

Admittedly Starlab鈥檚 existing prototypes are fairly crude and impractical.
Right now, each layer is built into a separate shirt. Putting on the complete
suit involves wearing half a dozen shirts, one on top of another. Eventually
though, van de Velde hopes, these layers will be built into a single garment in
any style the user chooses and the wearer will be able to adapt to changing
circumstances by switching each layer on or off as required. 鈥淥ur research work
is still in progress,鈥 said Katrien Van Gerven, Starlab鈥檚 public relations
manager. 鈥淭here are no finished products. It is up to the sponsoring companies
to use our results and put them into commercial products.鈥

Van de Velde seems confident that technological improvements will smooth out
most of today鈥檚 unsightly wrinkles. One day, he says, i-Wear may be a single
super-garment. A jogging suit, for example, that monitors your exercise level,
then urges you to run faster by changing the music in your Walkman to something
with a quicker beat or by shouting computer-generated words of
encouragement.

If the prospect of telling an over-enthusiastic jogging suit to get off your
back doesn鈥檛 appeal, van de Velde is quick to point out that future clothing
will be precisely tuned to your particular needs and sensibilities. You don鈥檛
have to buy a jogging suit that shouts. You can get one that whispers. Or knows
when you鈥檙e in church or on holiday and don鈥檛 want to be disturbed by ringing
cellphones. Such clothing could become your ally. 鈥淪uppose you鈥檙e in an
amusement park,鈥 says van de Velde. 鈥淣ormally, you just wander around, doing
whatever you happen to find.鈥 But what if your clothes knew the things that
interested you and could tell you where to find them, he says. 鈥淭hey could
maximise your chances of pleasure by gently biasing you in a certain direction,
perhaps by slightly heating one shoulder or the other.鈥 Some research suggests
that people gravitate unconsciously in the direction of warmth, van de Velde
adds.

Tillotson at the Sensory Design Lab has a different vision: hers smells.
鈥淪mell is the least researched of the senses, but one of the most emotional and
powerful,鈥 she says. 鈥淥dours drive our emotions, cause social bonding, spur
memories, influence our chemistry and lead us into temptation. So why not
conjure up multi-sensorial fabrics based around the sense of smell?

鈥淪mart-smelling clothes will sexually arouse you, boost your confidence at an
interview or business meeting, enhance your appetite, uplift your mood, freshen
you at work, wake you up or send you to sleep,鈥 predicts Tillotson. She is in
the early stages of developing clothing that mimics the human body, pumping out
various smells, possibly through microencapsulation, to reflect specific desires
and circumstances. A slinky evening dress, for example, might release pheromones
at the appropriate time. Maternity wear, on the other hand, could emit soothing,
therapeutic aromas intended to relax the wearer and possibly assist in
delivering the baby. 鈥淚t could be something like a night-shirt that smells good,
relieves pain and massages your back,鈥 she says.

Most of the first real-world applications of such clothing will probably be
in medicine. Some hospitals already use clothing with heartbeat-detecting
sensors. A European inventor has designed pyjamas that monitor a baby鈥檚 position
to reduce the possibility of Sudden Infant Death Syndrome. The US Army has
sponsored research into garments that not only automatically radio for help when
a soldier is wounded, but locate the wound, determine its severity and transmit
vital signs to medical personnel. Later versions might also dispense drugs.

Alice Pentland (Alex鈥檚 sister), director of the Center for Future Health at
the University of Rochester, thinks smart clothes will have some very specific
benefits. Lack of sensation in people with diabetes can lead to serious
circulatory problems. But optical fibre fabrics could tell you when there鈥檚 a
pressure point that you aren鈥檛 aware of, Pentland says. Sensors in the socks
would pinpoint places where the pressure was strong enough to reduce the light
flow. 鈥淭his causes other sensors to buzz or vibrate so that the person would
know they needed to adjust the clothing,鈥 she says.

Alex Pentland at MIT goes further: 鈥淭here鈥檚 nothing that says we can鈥檛
produce clothing that really watches out for you.鈥 Watches already monitor blood
sugar levels through the chemistry of sweat. The same technology could check for
chemical imbalances in your body. 鈥淲hy can鈥檛 the clothes then synthesise drugs
on the fly? Your shirt sensors could detect low blood sugar and then produce the
necessary drugs to counter it, releasing them onto the skin where they鈥檙e
absorbed.鈥 Pentland compares it to wearing a liver on your sleeve. 鈥淚t would be
like being in an Intensive Care Unit all the time, except that the doctor is
your undershirt.鈥

He expects you鈥檒l be wearing such apparel in less than 20 years. Others think
sooner. Predictions get more shaky beyond that. Each year, for example, Margaret
Voelker-Ferrier, an associate professor of design at the University of
Cincinnati, gives her senior students an assignment: forecast future fashions
based upon existing scientific developments and emerging cultural trends. 鈥淲e鈥檝e
been doing this for some time, and so far we鈥檝e been pretty much right on,鈥 says
the professor.

Insulated body paint will be all the rage in 2070, the students predict. By
the year 2100, they say, virtual clothing will be worn for work. But since work
will be conducted at home, you鈥檒l simply program the style of clothing you want
to wear on your home PC. Then you鈥檒l appear dressed when conducting business
over the videophone.

Venturing outdoors will be a different matter. A century from now,
Voelker-Ferrier鈥檚 students say, clothing will be thin, weightless and
transparent. In other words, you鈥檒l appear dressed indoors, and naked out.

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