Särtryck ur Svensk Lantmäteritidskrift nr 2 1968.
Optimal Testing
Decision Criteria for Acceptance of a Measurement Instrument
Harald Berg
Abstract
Application of decision theory to photogrammetric calibration problems.
Optimising of test procedure, i. e. best testing design and rules for the
best decision according to defined criterions.
Scope
This paper is written as a contribution to the coming discussions about
Standard Tests at the ISP Congress in Lausanne, with the thought that
it may be considered as a basic philosophy for future work of the work:
ing group dealing with "Standard tests of photogrammetric instruments"
of Commission II. It is also the desire of the author to introduce existing
decision theory into the field of survey technique!), as this theory seems
to have possibilities of being useful in fields, other than that of instru-
ment testing.
The problem
The task of control measurements is to serve as the basis for a deci-
sion. We want to base our decision to accept or reject the metric accuracy
of a photogrammetric instrument on a limited number of indirect deter-
minations of the standard error, this being an estimate of a figure which
represents the population of true errors of the instrument.
As the the errors determined comprise only a sample out of a popula-
tion of errors, there exists a risk for a wrong decision. Our problem is to
find a good rule for when to accept and when to reject?).
All the errors of measurement that will occur during the lifetime of the
instrument comprises the ideal population of errors. This is practically
1) The advantages of modern decision theory seem not yet to be taken into full
consideration by the older decision making generation today — probably due to
the late development of this theory and thus lacking knowlege.
2) That is: although we never can know the true status of the instrument, we
must make the decision.
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