The deflection of a human vein due to heartbeats is recorded by two op
tical methods. In the first method the skin is directly illuminated by
a 2 mW, HeNe laser beam in the neighborhood of the vein. The reflecte
d speckle pattern is recorded with a TV camera and afterwards digitize
d frame by frame. Its contrast is then calculated by computer software
and plotted as a function of time. In the second method a small mirro
r glued to the skin is illuminated by the laser beam. The position of
the light spot resulting from intersection of the reflected beam with
an opaque observation plane is recorded by a CCD camera and plotted as
a function of time. The instants of time corresponding to a maximum o
f the mirror rotation speed in the second graph coincide with the inst
ants of time when the speckle contrast is a minimum in the first graph
. As the mirror closely follows the vein displacements, this allows re
mote sensing of the heartbeats by a fully non-invasive method.