air by the
of balloon
50m. Also,
e at the
rns; one is
urning and
er is to turn
ime speed.
ormal size
vehicle.
ed and
of running
'asurement
ie following
f cars, 2)
arison by
he kind of
ilculated by
in order to
time. The:
type of car
ition of car
the type of
/een actual
ideo image
taken at 50m high above the ground.
The car of black body showed larger measuring error
and larger fluctuation in measured value comparing with
other kinds of car. This is because tracing of car by
matching was incomplete in many cases. When the
body color is black, it was difficult to distinguish the car
from the asphalt surface of road having the similar color,
and matching tended to be incomplete.
(2) Comparison of measuring results by running
speed
Figure 4 shows the measuring results of white car as
an example of comparison by running speed.
The measuring results are roughly classified into two
groups. One is the group which has small deviation from
the actual measured value and the other is the group
having the larger deviation. The difference of these
groups has resulted from the successful or unsuccessful
matching in image correlation. In case of the group
having larger deviation, there was a rainfall during the
test run, and there were puddles and speckled patterns
on the road. As a result, matching was not well done
because it was difficult to distinguish the car body from
road surface.
In case of the group with successful matching, large
difference was not observed in the measured value from
the actual value even when the running speed was
different. The same can be said to the large sized
vehicle. Seeing from the spatial resolution of video
camera and photographing altitude, the range of
measured value had been considered to be about 5
km/h of the actual value. Among the measuring results,
those with successful matching showed a result almost
consistent with this expectation.
(3) Comparison by observation altitude
Assuming the cases where the balloon is sent up
around the intersection, we compared the measuring
accuracy by different observation altitudes of 50m,
100m and 150m. In this experiment , it was possible to
cover the same area at any altitude by adjusting zoom
lens. Therefore, hardly any difference was observed in
the measuring result when the difference of altitude is
within the extent of 50m -150m.
Based on the discussion made in the above, the
methods of taking video image and measurement used
in this study are considered to provide the measuring
values which are close to the accuracy logically
determined by the performance of CCD camera and
photographing altitude only if matching under the image
correlation is in good condition.
5. Measuring Results of Running Locus and
Discussion
In the discussion on measuring result of running
locus, we verified the measurement accuracy when the
loci of vehicles turning at three different radii of bm, 10m
and 15m were measured. The viewpoints of discussion
were (1)appropriateness of measuring results, (2)
comparison of the results taken at different observation
altitude and (3) evaluation of the influence of mid-way
stop at turning.
(1) Appropriateness of measuring results
70 :
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Actual value(Km/h)
Figure 4 Actual running speed and measured value
(in case of photographing altitude 50m, white normal size car)
International Archives of Photogrammetry and Remote Sensing. Vol. XXXI, Part B5. Vienna 1996
