The basic model also comes with a skin sensor which
detects skin temperature and sweat.
Not exact matches
Most of the 2 billion or so nerve endings in the outermost layer of our
skin sense pain; those dedicated to
temperature allow us to
detect differences as small as 0.01 degree Fahrenheit.
So far, the
skin is capable of
detecting these tiny changes across a range of
temperatures roughly between 5 to 50 degrees Celsius (about 41 to 158 degrees Fahrenheit), which is useful for robotics and biomedical applications.
The study evaluated the capability of IRT to
detect inflammation in knee and ankle joints in children, and found that
skin surface
temperatures were significantly elevated in inflamed ankle joints, but not in inflamed knee joints.
We have seen piezoelectric transistors incorporated into synthetic
skins making them sensitive enough to read fingerprints, other approaches that use multipurpose sensors to
detect temperature and humidity in addition to pressure, and others that use pressure - sensitive materials made from inorganic semiconductors to only use a small amounts of power.
The
temperature - sensitive nerve endings in your
skin can
detect the difference between your inside body
temperature and your outside
skin temperature.
The
temperature - sensitive nerve endings in our
skin can
detect the difference between inside body
temperature and outside
skin temperature