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movements and thinking will be closely related
with our actions by body and brain. And there
should be some relations among those actions
and the brain. So that -theoretically speaking-, it
should be possible to understand the meanings
of those actions by sensing the electro-magnetic
emissions out of our body.
Now it is possible to sense an electro-magnetic
emission from muscles' movement when they
(will) move. And they can be used for empower-
ing muscles' movements more, for example. For
another application, it is used for a robot control
in a simple way by sensing a brain's activity with
a head mount electro-magnetic sensor.
In terms of a brain activity sensor, it is still
hard to sense activities especially at the parts deep
inside brain, which might be related with fingers'
movements, for example. And also, we now have
to have those sensors stuck on for covering a
brain when we want to sense, which will lose our
freedom in actions.
We have now Nano-Tesla (NT) electro-
magnetic sensor but this will not be able to give
a clear image of human electro-magnetic wave
change. So we need further fine sensor, which
is Pico-Tesla (PT) electro-magnetic wave sensor
in order to sense all of our body from the surface
to inside. In the mean time, we can say that we
can put the PT electro-magnetic wave sensor on
glasses or on buttons of the clothes that will detect
the PT electro-magnetic wave differences about
our body and brain. This kind of sensor will be
positioned at important places, like glasses and
hat (for sensing sides and top of brain), sleeves
(for sensing hands), buttons (for sensing a heart,
etc.), and trouser (for sensing legs) in order to
sense key positions of human behaviours. That is
to say, this kind of sensor will be used for detect-
ing our behaviour or thinking (SME).
Through this mechanism (SME), we can access
into a cellular phone in pocket or to an available
access point which is able to go further into the
Internetworking that is stationary or in movement
of a satellite. Once this atmosphere will have been
established, we can enjoy the Swirl Computing
just thinking about a matter what we want to do.
FUTURE RESEARCH DIRECTIONS
It has been shown that the Swirl Computing will
be able to be realized by the ideas of [Principle],
[SOA], [Mathematical Expression], and [Swirl
Sensor] which will give free and seamless at-
mosphere for communication and retrieving
knowledge just like thinking about a matter, but
there are still some subjects that will be waiting
for being improved and solved.
So, this section will touch upon each subject
for future research direction.
1.
SOA
will be realized by using various
technologies of today. But SME is not yet
available in a market. However, there are
slightly similar ones for simple manipula-
tion purposes like robot movement for toys,
home electronic facility control, and cursor
control of computer. Of course, it would be
possible to realize it technologically by using
fMRI, for example. But it is not the one that
we want to use. Because it is too expensive
to buy and is too big to carry. We need the
SME that will not be even recognized by us,
which means that it should be very small
and light. It might be possible to make it
physically by using the present technologies
except the signals processing method. The
difficulties are existed in using many sensors
for detecting of many places of the targeted
parts. So the positions of the sensors will be
the issues and also the signals processing
method (ex. multi-modal processing) will
be the issues too. And one more important
subject is concerned with costless.
2.
Mathematical Expression
has been given
generally, but it should be more exact in
descriptions and it needs to correspond with
a real world. However, these are not the
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