Author_Institution :
Centre for Manuf. Metrol., Brunel Univ., Uxbridge, UK
Abstract :
This paper presents a general object-oriented model for measurement systems. The limitations of the conventional function-oriented models are examined in the light of the generalized concept of measurement and its theoretical framework proposed previously by the authors. The proposed model identifies five classes of objects, i.e., measured object, measuring instrument, reference standard, human observer, and operating environment. Each is characterized by its own attributes and operations or functions at three levels, i.e., internal, operational, and environmental. The interactions between them are also modeled, including the coupling between the measured object and the measuring instrument, the human-instrument interface, the calibration, and the interference. It serves as both a modeling framework and a practical tool for description, analysis and design, and, in particular, for computer-aided analysis and design of a measuring system. It will find applications in instrumentation engineering and measurement research and education
Keywords :
computerised instrumentation; data encapsulation; data handling; inheritance; knowledge representation; measurement systems; modelling; object-oriented methods; virtual instrumentation; abstraction; calibration; computer-aided analysis; data handling; encapsulation; environmental level; human observer; human-instrument interface; information hiding; internal level; knowledge driven concept; measured object; measurement systems; measuring instrument; object-oriented model; operating environment; operational level; reference standard; virtual instruments; Anthropometry; Application software; Calibration; Computer aided analysis; Humans; Instruments; Interference; Measurement standards; Object oriented modeling; Particle measurements;
