Abstract
Here we devise an approach to model error and its propagation. Without approximations, we define the uncertainty of a measurement as its maximum possible error (maper). Thus, we propose and solve analytically two optimization problems. The one designed to determine the uncertainty of a measurement, the other specifically designed to optimize the accuracy of a RFID location system. The usefulness of this general approach is shown by applying it to the particular instance of estimating the coordinates of a person in real-time using RFID devices. This way, exact formulae to evaluate the quality of this measurement are mathematically deduced, which is useful, for example, to predict whether an inexpensive RFID location technology can meet a desired quality standard or not. The second optimization problem proposed here defines an optimal range (orange) for the RFID devices employed. Again, analytically, its exact formulae were derived. We propose an approach to distribute RFID tags for a positioning system based solely on RFID technology. In the light of the formulae, its quality is good enough as to locate emergency phone calls in real time. We found that key to an optimal performance is the range used and the distance between consecutive tags.Electronic supplementary materialThe online version of this article (doi:10.1186/s40064-015-1084-6) contains supplementary material, which is available to authorized users.
Highlights
Major concerns On the one side, this paper concerns with expressing uncertainty
It should be done to its uncertainty [usually, the standard uncertainty, which is expressed as the standard deviation of the measurement concerned (BIPM 2008)]
Following the recommendations of the Comité International des Poids et Mesures (CIPM), we will use the uncertainty of a measurement to numerically represent its quality (BIPM 2008)
Summary
Major concerns On the one side, this paper concerns with expressing uncertainty. A general expression of uncertainty can be used in any scientific field, but especially for the one concerned here (geodesy and navigation) inasmuch as the standard uncertainty by means of standard deviation (SD) is helpless to study the problem under scrutiny. Much has been developed in this area over the past decades especially with the advent of the Global Navigation Satellite Systems (GNSS), from which GPS is its forefront. These GNSS exhaust not the needs for tracking of goods. In this regard, several alternatives have been studied, some GNSS-free others to work integrated with it. Several alternatives have been studied, some GNSS-free others to work integrated with it Notwithstanding, these still exhaust not these needs. Among the existing alternatives the one eyed for is RFID-based (acronym for radio-frequency identification)
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