DocumentCode
920802
Title
Minimum energy cost of an observation
Author
Adler, F.P.
Volume
1
Issue
3
fYear
1955
fDate
12/1/1955 12:00:00 AM
Firstpage
28
Lastpage
32
Abstract
The minimum energy expenditure required in performing basic observations and measurements is analyzed. The energy cost, in ergs per binary unit (bit) of information, is found for three fundamental cases using idealized experimental procedures: 1) the determination of the presence (or absence) of an input signal on an indicating instrument, 2) the measurement of a time interval and 3) the measurement of a distance. The variation of energy cost with the reliability and accuracy of the experiment is determined; it is found that with a suitable procedure the minimum value of 
ergs per bit predicted by the Second Law (interpreted so as to include informational entropy) can be approached arbitrarily closely under conditions of small reliability and high accuracy. The present results are compared with those derivable from C. E. Shannon\´s equation for the capacity of a communication channel.
ergs per bit predicted by the Second Law (interpreted so as to include informational entropy) can be approached arbitrarily closely under conditions of small reliability and high accuracy. The present results are compared with those derivable from C. E. Shannon\´s equation for the capacity of a communication channel.Keywords
Distance measurement; Entropy functions; Information theory; Measurement; Time transducers; Artificial intelligence; Cities and towns; Costs; Energy measurement; Energy states; Entropy; Information theory; Instruments; Intelligent systems; Jacobian matrices; Needles; Research and development; Thermodynamics; Time measurement;
fLanguage
English
Journal_Title
Information Theory, IRE Transactions on
Publisher
ieee
ISSN
0096-1000
Type
jour
DOI
10.1109/TIT.1955.1055139
Filename
1055139
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