Your search keyword '"Wolfram Lyda"' showing total 2 results

1. Fourier descriptors for defect indication in a multiscale and multisensor measurement system.

Author

Avinash Burla, Tobias Haist, Wolfram Lyda, and Wolfgang Osten

Subjects

SENSOR networks, MEASUREMENT, DEFORMATIONS (Mechanics), SIMULATION methods & models, FOURIER transforms, CONFOCAL microscopy, OPTICAL aberrations, MICROELECTROMECHANICAL systems

Abstract

Efficient inspection of an object for deformations and defects requires comparison with an existing real or simulated reference model. Fourier descriptor (FDs) based shape analysis is an effective method for describing a shape using the Fourier transform. This shape representation can be easily modified to achieve shift, rotation, and scale invariance. We propose two new methods, namely the ring sampling and the spiral sampling methods, which enable the usage of FDs in order to detect defects on micro-optical elements like microlens arrays. As an example the measurement data obtained from a confocal microscope has been used to show the effectiveness of the two approaches for both indicating and detecting surface defects. Microlens arrays with different types of defects including global (deformed lenses causing aberrations) and local defects (scratches) were simulated using a confocal microscopy simulation tool to test the reliability of the methods. A classifier differentiates between global and local defective lenses. In order to represent other kinds of objects using FDs, the methods can be easily modified or extended. The whole process has been implemented into an automated multiscale multisensor measurement system, which focuses on fast detection of defects on micro-optical and microelectromechanical systems. [ABSTRACT FROM AUTHOR]

Published

2011

2. Automated surface positioning for a non-null test interferometer.

Author

Goran Baer, Eugenio Garbusi, Wolfram Lyda, and Wolfgang Osten

Subjects

INTERFEROMETERS, OPTICAL aberrations, GEOMETRIC surfaces, OPTICAL instruments, OPTICS, SPHERES, IMAGING systems, OPTOELECTRONIC devices

Abstract

An automatic method for the positioning of the test surface in a non-null interferometer is presented. A major task in the interferometric testing of surfaces is to avoid the introduction of surface aberrations due to an incorrect placement of the test object in the interferometer cavity. In the case of plane and spherical surfaces, adjustment errors can usually be distinguished from surface figure errors and therefore removed, but in the case of aspherical surfaces this task becomes nontrivial. In this work, the effect on the measured phase due to lateral and axial displacements of the aspherical surface is calculated, and an adjustment method for the positioning of the surface at a predefined measurement location presented. Experimental results showing the feasibility of the proposed procedure are shown. [ABSTRACT FROM AUTHOR]

Published

2010