Your search keyword '"Joris J.J. Dirckx"' showing total 12 results

1. X-ray stereo imaging for micro 3D motions within non-transparent objects

Author

Joris J.J. Dirckx, Jan A.N. Buytaert, and Wasil H.M. Salih

Subjects

Physics, business.industry, Acoustics, Stereoscopy, Particle displacement, Rigid body, Grayscale, law.invention, Stereo imaging, medicine.anatomical_structure, Position (vector), law, medicine, Waveform, Computer vision, Artificial intelligence, business, Eardrum

Abstract

We propose a new technique to measure the 3D motion of marker points along a straight path within an object using x-ray stereo projections. From recordings of two x-ray projections with 90o separation angle, the 3D coordinates of marker points can be determined. By synchronizing the x-ray exposure time to the motion event, a moving marker leaves a trace in the image of which the gray scale is linearly proportional to the marker velocity. From the gray scale along the motion path, the 3D motion (velocity) is obtained. The path of motion was reconstructed and compared with the applied waveform. The results showed that the accuracy is in order of 5%. The difference of displacement amplitude between the new method and laser vibrometry was less than 5μm. We demonstrated the method on the malleus ossicle motion in the gerbil middle ear as a function of pressure applied on the eardrum. The new method has the advantage over existing methods such as laser vibrometry that the structures under study do not need to be visually exposed. Due to the short measurement time and the high resolution, the method can be useful in the field of biomechanics for a variety of applications.

Published

2012

2. Dual-beam laser Doppler vibrometer for measurement of pulse wave velocity in elastic vessels

Author

Adriaan Campo and Joris J.J. Dirckx

Subjects

Materials science, business.industry, Physics, Stiffness, Laser Doppler velocimetry, Distension, Interferometry, symbols.namesake, Optics, symbols, medicine, medicine.symptom, business, Pulse wave velocity, Doppler effect, Laser Doppler vibrometer, Pressure gradient

Abstract

When a fluid flowing through an elastic vessel is subjected to a sudden change in pressure gradient, pressure pulses will propagate through the fluid. Velocity of these pulse waves (PWV) can be determined by simultaneous detection of wall distension on two separate points on the vessel wall, along its trajectory. PWV depends on wall stiffness, and under certain circumstances, wall stiffness can be calculated from the propagation velocity. Optical interferometry is a noncontacting technique that allows measurement of wall distension on discrete locations. In this work we propose a miniaturized dual-beam laser Doppler vibrometer (LDV) to measure wall distension simultaneously at two locations. Our dual-beam LDV is based on a single laser source and one acousto-optic modulator with as much as possible of the interferometer optics shared among the different beams. The dual-beam LDV was used for simultaneous detection of wall distension of several elastic vessels of different stiffness. We found that PWV as measured in elastic vessels agrees well with theoretically expected values, and measurement precision is better than 5%. Moreover, the dual-beam LDV performs almost as good as commercial systems for detection of PWV. The dual-beam LDV can have applications in cardiovascular risk management. Stiffness of large arteries has a very good predictive value for cardiovascular disease and overall mortality. This parameter can be estimated from arterial PWV. Current methods to measure arterial PWV suffer from several shortcomings. A dual-beam LDV can offer substantial advantages over existing techniques.

Published

2011

3. Correction of deformed images in real time

Author

Joris J.J. Dirckx, Jan A.N. Buytaert, and Sam Van der Jeught

Subjects

Pixel, Computer science, business.industry, Physics, Distortion (optics), ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Graphics processing unit, Image processing, Real-time computer graphics, Parallel processing (DSP implementation), Digital image processing, Computer vision, Artificial intelligence, General-purpose computing on graphics processing units, business

Abstract

Optical lens systems generally contain non-linear distortion artifacts that impose important limitations on the direct interpretation of the images. Image processing can be used to correct for these artifacts, but due to the calculation-intensive nature of the required distortion correction process, this is usually performed offline. This is not an option in image-based applications that operate interactively, however, where the real-time display of distortion corrected images can be vital. To this end, we propose a new technique to correct for arbitrary geometric lens distortion that uses the parallel processing power of a commercial graphics processing unit (GPU). By offloading the distortion correction process to the GPU, we can relieve the central processing unit (CPU) of doing this computationally very demanding task. We successfully implemented the full distortion correction algorithm on the GPU, thereby achieving a display rate of over 30 frames/sec for fully processed images of size 1024 x 768 pixels without the need for any additional digital image processing hardware.

Published

2011

4. Full-field displacement and strain measurement of small complex bony structures with digital speckle pattern interferometry and shearography

Author

Joris J.J. Dirckx and Joris Soons

Subjects

Speckle pattern, Interferometry, Optics, Cantilever, Materials science, Shearography, Deflection (engineering), business.industry, Physics, Electronic speckle pattern interferometry, Speckle imaging, business, Finite element method

Abstract

We have developed a simple digital speckle pattern interferometry (DSPI) and shearography setup to measure the displacement and the corresponding strains of small complex bony structures. We choose both optical techniques because we want to obtain very small deformations (± 20 μm) of small objects (± 1cm). Furthermore full field and in situ measurements are preferred. We first use a Michelson DSPI arrangement with phase shifting. In this way we can obtain the out-of-plane displacements precisely. Second, shearography is introduced to measure the derivative of the out-ofplane displacement. In this way some intrinsic disadvantages of DSPI can be overcome. We have developed these setups to measure the out-of-plane deformations of (small) bird beaks when realistic external forces are applied. In this way, we have a full field validation measurement to which we can compare the outcome of realistic finite element models. The aim is to determine whether the shape, and not only the size, of the bird beaks are optimized to deal with the biting forces that a species encounters. This quantitative analysis will help biologists to investigate if beak morphology is adapted to feeding habits. Applying the method to the famous evolution model of the Darwin's finches will provide scientific proof of functional evolution. In this paper we will present both the DSPI and shearography setup, a comparison of the performance of both techniques on a simple deflection of a cantilever beam and the first results obtained on loaded bird beaks.

Published

2010

5. Fringe generation and phase shifting with LCDs in projection moiré topography

Author

Jan A.N. Buytaert and Joris J.J. Dirckx

Subjects

Liquid-crystal display, Pixel, Computer science, business.industry, Physics, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Grayscale, law.invention, Interferometry, Optics, law, Surface metrology, Demodulation, Computer vision, Artificial intelligence, business, Image resolution, Structured light

Abstract

Structured light projection techniques are an important and popular approach for whole-field surface topography. Within this branch, projection moire interferometry is our preferred optical metrology method. The use of liquid crystal display (LCD) projectors to produce structured light patterns has been proposed and used before in projection moire. It allows fast and easy adaptation of the grid pitch and thus measurement sensitivity. In this paper we will show how using a second liquid crystal panel makes the projection moire technique even more versatile and performant: The setup incorporates optical demodulation (OD) which in turn allows for accurate phase-shifting and the use of phase-shifting algorithms (PSAs). The Z-resolution is high and no filtering or interpolation is needed in X-Y by using the gray scale value variations through the phase-shifting and optical demodulation. Thus, we make optimal use of the camera pixel resolution and achieve an uncompromised measuring resolution. Furthermore, the setup is entirely digitally controlled, needs no physical interaction and avoids mechanically moving component. The low-cost setup, technique and theory will be covered in this talk. The resolution and other performance properties will be discussed and demonstrated. And to conclude, an application to achieve elasticity parameters of membranes will be shown. interferometry is our preferred optical metrology method. The use of liquid crystal display (LCD) projectors to produce structured light patterns has been proposed and used before in projection moire. It allows fast and easy adaptation of the grid pitch and thus measurement sensitivity. In this paper we will show how using a second liquid crystal panel makes the projection moire technique even more versatile and performant: The setup incorporates optical demodulation (OD) which in turn allows for accurate phase-shifting and the use of phase-shifting algorithms (PSAs). The Z-resolution is high and no filtering or interpolation is needed in X-Y by using the gray scale value variations through the phase-shifting and optical demodulation. Thus, we make optimal use of the camera pixel resolution and achieve an uncompromised measuring resolution. Furthermore, the setup is entirely digitally controlled, needs no physical interaction and avoids mechanically moving component. The low-cost setup, technique and theory will be covered in this talk. The resolution and other performance properties will be discussed and demonstrated. And to conclude, an application to achieve elasticity parameters of membranes will be shown.

Published

2009

6. Measurement of the thickness of the tympanic membrane in cat using a heterodyne interferometer

Author

Joris J.J. Dirckx, Willem F. Decraemer, and Shyam M. Khanna

Subjects

Materials science, Microscope, business.industry, Confocal, Pinhole, law.invention, Interferometry, Optics, medicine.anatomical_structure, law, Astronomical interferometer, Middle ear, medicine, Heterodyne detection, business, Laser Doppler vibrometer

Abstract

The thickness of the tympanic membrane has to be known for the formulation of mathematical ear models. Using a commercial confocal laser scanning microscope we have found that the tympanic membrane has parts thinner than 10 micron. In this study we were forced to excise the tympanic membranes and due the restricted working distance of the microscope objective, we had to flatten the tympanic membrane onto a glass plate. Although we were able to measure thickness in fresh samples, thickness could still have been altered by the preparation procedure. S. Khanna developed over the years a powerful heterodyne interferometer with confocal pinholes in the illumination and observation arms. Thanks to its sectioning capabilities it can measure vibrations of structures embedded within other tissue without the need to expose the structure. While using this equipment in measuring vibrations in the middle ear, the idea grew that the interferometer could also be used to measure thickness, by tracking the carrier level of the interferometer while the laser focus is driven through the membrane. The method looks full of promises as measurements on animals with the tympanic membrane still in its original niche are possible without a prior preparation of the membrane.

Published

2004

7. The integration of detailed 3D anatomical data for the quantitative description of 3D vibration of a biological structure: an illustration from the middle ear

Author

Shyam M. Khanna, Willem F. Decraemer, and Joris J.J. Dirckx

Subjects

Vibration, Engineering drawing, Landmark, Mathematical model, Computer science, business.industry, Solid modeling, Object (computer science), 3D modeling, business, Rotation (mathematics), Algorithm, Data modeling

Abstract

Vibration of biological structures is often measured in a reference system that is imposed on the investigator by the accessibility of the object. This imposes a serious handicap on the usability of the results. A method is presented that measures the 3-D components of vibration of the structure and integrates complete 3-D anatomy in the data analysis. A realistic3-D anatomical model of the tested structure is used to determine coordinate transformations and express the motion parameters in intrinsic object reference systems. Results from different experiments can now be unequivocally compared and predictions of mathematical models can accurately be checked. Animations of the vibrating structure can be made to study the motion from all angles, even those not accessible during the experiments. One can also calculate the ratio of vibration amplitudes at different landmark points, check whether the structure has a fixed rotation axis, or calculate the vibration along an observation axis that was used in experiments with a completely different experimental approach. We present as an example a study on the vibration of the malleus. The application of our procedure is not limited to problems in the biomedical research area, but it is of general use in [bio-] engineering applications.

Published

2002

8. Video moire topography for in-vitro studies of the eardrum

Author

Joris J.J. Dirckx and Willem F. Decraemer

Subjects

Computer science, business.industry, Moire Topography, Optical engineering, Subtraction, Moiré pattern, Deformation (meteorology), medicine.anatomical_structure, Optics, medicine, Projection method, Calibration, business, Eardrum

Abstract

An opto-electronic projection moire apparatus was developed for in-vitro studies of the eardrum. Moire topograms are generated by real-time video image subtraction, yielding 25 new interferograms per second. By using different reference images, both shape and deformation fringes can be obtained, without manipulating the object or the setup. Calibration measurements show a measuring precision of 5 micrometers . The setup is used to measure the shape and deformation of the eardrum. Parameters such as, for instance, the volume displacement of the pars flaccida, can be calculated from computer evaluations of the topograms.© (1998) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

Published

1998

9. Reflective coatings in optical interferometry for in vitro studies of the eardrum

Author

Joris J.J. Dirckx and Willem F. Decraemer

Subjects

Materials science, genetic structures, Moire Topography, business.industry, Optical engineering, Holography, Deformation (meteorology), law.invention, Micrometre, Interferometry, Optics, Optical coating, law, Specular reflection, business

Abstract

Holography and moire topography are very valuable tools for the study of the shape, the deformation, and the vibration of delicate biological structures such as the eardrum. Best results are obtained if the object surface has high diffuse reflectivity, without specular reflections. May biological objects do not have these qualities by nature, so that application of reflective coatings can strongly improve measuring results. In the present paper the optical and mechanical properties of reflective coatings based on bronze powder, white Chinese ink, and magnesium oxide are discussed. Measurements of reflected intensity distribution show that white Chinese ink and MgO have superior optical qualities: they can strongly enhance diffuse reflectivity, while completely suppressing all specular reflections. Electron microscopy shows that these coatings have a layer thickness of 7.5 micrometer and 17 micrometer, respectively. Phase shift moire topography is used to measure the displacement of a thin plastic membrane which is deformed by small static pressures. It is shown that the coatings do not cause deformation artifacts within the measuring resolution of 2.5 micrometers. Application results of in-vitro shape and deformation measurements on coated tympanic membranes are given.© (1996) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

Published

1996

10. Deformation measurements of the human tympanic membrane under static pressure using automated moire topography

Author

Willem F. Decraemer and Joris J.J. Dirckx

Subjects

Contouring, Materials science, Moire Topography, business.industry, Phase (waves), Holography, Static pressure, Moiré pattern, Deformation (meteorology), law.invention, Optics, law, Calibration, business

Abstract

To measure the surface shape and shape change of soft biological material, the use of a non contactingmetrological technique is imperative. One of these techniques is moire contouring, which is particularlyinteresting because of its simplicity and low cost. We propose a method to mathematically reconstruct asurface shape from moire topograms. The method is based on the recording of three topograms which are shifted in phase by translating the object. The method is implemented in an apparatus which fully automatically performs all required steps to finally yield a 512 by 512 point matrix of surface height values,with a height measuring resolution of 20 pm. The resolution for measuring small height displacements is 2pm. Due to this high resolution, it is possible to investigate the deformation of the tympanic membrane,caused by small pressure changes in the middle ear cavity. Full field deformation data are shown. The datacan be used to obtain information on the movement of the manubrium, or to calculate volume displacementsand surface area changes.1. INTRODUCTIONTo measure the surface shape of delicate biological specimens such as the tympanic membrane (TM),it is imperative to use a non contacting metrological technique. Moire topography is a simple and low cost

Published

1991

11. Moire-shift interferometer measurements of the shape of human and cat tympanic membrane

Author

Willem F. Decraemer and Joris J.J. Dirckx

Subjects

Materials science, Ossicles, business.industry, Holography, Moiré pattern, law.invention, Interferometry, medicine.anatomical_structure, Optics, law, Astronomical interferometer, Middle ear, medicine, Ear canal, Sound pressure, business

Abstract

The shape of the tympanic membrane is fairly complicated and seems to be of significant importance in the coupling of the acoustic sound pressure in the external ear canal to the motion of the middle ear ossicles. Precise measurements of the tympanic membrane shape are not available in literature. To measure the shape of a very thin, curved biological membrane a technique is required which does not deform the surface during the measurement. Casting techniques are therefore not well suited. A noncontacting measurement technique based on moire interferometry proved to be a better tool. A moire shift interferometer was used to measure with great precision the shape of the external surface of human and cat tympanic membrane. The dense matrix of z(x,y) values thus obtained does not only describe the shape with high spatial resolution but may also be used to calculate different geometrical parameters. As an example of direct application the authors have calculated the area of the curved surface to the pars tensa and pars flaccida for a human and a cat tympanic membrane.

Published

1991

12. Automated 3-D surface-shaped measurement based on phase-shift moire

Author

Willem F. Decraemer and Joris J.J. Dirckx

Subjects

Surface (mathematics), Shadow moire, Optics, Fully automated, business.industry, Computer science, Phase (waves), Computer vision, Full field, Artificial intelligence, Moiré pattern, business, Surface reconstruction

Abstract

A method for full field 3-D surface reconstruction is proposed. The method is based on shadow moire topography and makes use of four contourograms shifted in phase by translating the object. The implementation of the method in a fully automated apparatus is described. Some application examples are given. 1.

Published

1990