Abstract
This paper describes the conception and development of an optical system applied to suspension bridge structural monitoring, aiming real-time and long-distance measurement of dynamical three-dimensional displacement, namely, in the central section of the main span. The main innovative issues related to this optical approach are described and a comparison with other optical and non-optical measurement systems is performed. Moreover, a computational simulator tool developed for the optical system design and validation of the implemented image processing and calculation algorithms is also presented.
Highlights
Conception and developrnent of an optical rncthodology applied to long-distance rneasurernent 01' suspension bridges dynarnic displaccment
A cOlllplltational simlllator 1001 devclopcd for the optic;tl systclIl design and validation of til.: implcmentcd image processing and calclIlation algorithms is preselltcd
Summary
Conception and developrnent of an optical rncthodology applied to long-distance rneasurernent 01' suspension bridges dynarnic displaccment
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