Variational image processing algorithms for the stereoscopic space-time reconstruction of water waves

Gallego Bonet, Guillermo

19 January 2011

A novel video observational method for the space-time stereoscopic reconstruction of dynamic surfaces representable as graphs, such as ocean waves, is developed. Variational optimization algorithms combining image processing, computer vision and partial differential equations are designed to address the problem of the recovery of the shape of an object's surface from sequences of synchronized multi-view images. Several theoretical and numerical paths are discussed to solve the problem. The variational stereo method developed in this thesis has several advantages over existing 3-D reconstruction algorithms. Our method follows a top-down approach or object-centered philosophy in which an explicit model of the target object in the scene is devised and then related to image measurements. The key advantages of our method are the coherence (smoothness) of the reconstructed surface caused by a coherent object-centered design, the robustness to noise due to a generative model of the observed images, the ability to handle surfaces with smooth textures where other methods typically fail to provide a solution, and the higher resolution achieved due to a suitable graph representation of the object's surface. The method provides competitive results with respect to existing variational reconstruction algorithms. However, our method is based upon a simplified but complete physical model of the scene that allows the reconstruction process to include physical properties of the object's surface that are otherwise difficult to take into account with existing reconstruction algorithms. Some initial steps are taken toward incorporating the physics of ocean waves in the stereo reconstruction process. The developed method is applied to empirical data of ocean waves collected at an off-shore oceanographic platform located off the coast of Crimea, Ukraine. An empirically-based physical model founded upon current ocean engineering standards is used to validate the results. Our findings suggest that this remote sensing observational method has a broad impact on off-shore engineering to enrich the understanding of sea states, enabling improved design of off-shore structures. The exploration of ways to incorporate dynamical properties, such as the wave equation, in the reconstruction process is discussed for future research.

Multigrid methods

Marine technology

Remote sensing

Image processing

Stereo vision

Ocean waves

Variational methods

Imaging systems

Water waves

Volume quantification and visualization for spinal bone cement injection

Xie, Kai, 謝凱

January 2003

published_or_final_version / abstract / toc / Computer Science and Information Systems / Master / Master of Philosophy

Bone cements - Data processing.

Spine - Tomography.

Vaizdo konferencijų Lietuvos mokyklose galimybių tyrimas / Research for Possibilities to Use Videoconferences in Lithuanian Schools

Gečienė, Jurgita

16 August 2007

Šiuo metu Lietuvoje nėra centralizuotos skatinimo bei paramos programos naudoti vaizdo konferencijas mokyklose. Stebimi pavieniai aktyvesnių mokyklų atvejai. Lietuvoje vaizdo konferencijos mokyklose labai mažai naudojamos, tai įtakoja: - Ne visos mokyklos turi pakankamą perdavimo spartą ir ryšio kokybę reikalingą norint realizuoti vaizdo konferencijas (dauguma mokyklų prijungtos radijo ryšiu). - Vaizdo konferencijoms yra reikalinga speciali įranga (pvz., kameros, mikrofonai, projektoriai, ekranai). - Vaizdo konferencijas reikia kruopščiai suplanuoti, reikalingos tam tikros techninės žinios bei įgūdžiai, jų organizavimas reikalauja atitinkamo pasirengimo. - Iniciatyvos trūkumas plėtoti tokią paslaugą mokyklų lygmenyje. Darbo tikslas – ištirti ir įvertinti vaizdo konferencijų galimybes Lietuvos mokyklose, prijungtose prie akademinio tinklo LITNET. Darbo tikslui įgyvendinti buvo iškelti tokie uždaviniai: - Informacinių komunikacinių technologijų privalumų įvertinimas; - Kitų šalių patirties analizė diegiant vaizdo konferencijas; - Vaizdo konferencijų galimybių apžvalga; - Vaizdo konferencijų technologijų nagrinėjimas; - Sprendimo reikalingo vaizdo konferencijoms mokyklose prijungtose prie LITNET tinklo organizuoti ir vykdyti analizė ir parinkimas; - Pateikti vaizdo konferencijų naudojimo mokymosi vadovą (kursą) mokytojams, norintiems išbandyti šią technologiją mokyme. / There are no centralized support and motivation system for using videoconferencing at schools in Lithuania. In this research project were measured advantages of Information Communication Technologies for learning and teaching process, analyzed videoconference’s experience at schools of United Kingdom and treated situation of Lithuanian schools connected to academic and research network LITNET. Also, there were proposed possible videoconferencing solutions according to school network connection type. The main problem of organizing videoconferences at schools – lack of teacher’s qualification and knowledge of videoconferences. There was created distance learning course “Videoconferences at schools” with purpose to encourage schools to use videoconferences. The object of this work is videoconferencing in Lithuania Schools connected to academical computer network LITNET. The problems: - Not all schools have enough bandwidth and required connectivity quality to use good quality videoconferencing (mostly connected using wireless technology); - For using videoconferences schools need to buy special equipment; - Videoconferencing needs careful planning; there are needs of special knowledge and experience for school personal. Use of videoconferences at schools provides great possibilities to active pupils learning; also provide content from remote locations. For schools that are connected with low bandwidth technology (wireless) the best solution to implement videoconferencing is to... [to full text]

Informatics Engineering

Vaizdo sukūrimo sistemos

Kompiuterinės konferencijos

Imaging systems

Computer conferencing

Information communication technologies

Digital micro-mirror devices in digital optical microscopy

Adeyemi, Adekunle Adesanya

19 August 2009

In this thesis, studies on the applications of digital micro-mirror devices (DMD) to enhancement of digital optical microscope images are presented. This involves adaptation of the fast switching capability and high optical efficiency of DMD to control the spatial illumination of the specimen. The first study focuses on a method of using DMD to enhance the dynamic range of a digital optical microscope. Our adaptive feedback illumination control method generates a high dynamic range image through an algorithm that combines the DMD-to-camera pixel geometrical mapping and a feedback operation. The feedback process automatically generates an illumination pattern in an iterative fashion that spatially modulates the DMD array elements on a pixel-by-pixel level. Via experiment, we demonstrate a transmitted-light microscope system that uses precise DMD control of a DMD-based projector to enhance the dynamic range ideally by a factor of 573. Results are presented showing approximately 5 times the camera dynamic range, enabling visualization over a wide range of specimen characteristics. The second study presents a technique for programming the source of the spherical reference illumination in a digital in-line holographic microscope using DMD. The programmable point source is achieved by individually addressing the elements of a DMD to spatially control the illumination of the object located at some distance from the source of the spherical reference field. Translation of the ON-state DMD mirror element changes the spatial location of the point source and consequently generates a sequence of translated holograms of the object. The experimental results obtained through numerical reconstruction of translated holograms of Latex microspheres shows the possibility of expanding the field of view by about 263% and also extracting depth information between features in an object volume. The common challenges associated with the use of DMD in coherent and broadband illumination control in both studies are discussed.

digital microscopy

Digital micromirror device

Spatial light modulators

Imaging systems

optical systems

digital holography

Characterization of defects in fiber composites using terahertz imaging

Anbarasu, Arungalai

05 June 2008

Terahertz radiation or T-rays or THz radiation refers to the region of the electromagnetic spectrum between approximately 100 GHz and 30 THz. This spectral region is often referred to as the THz gap as these frequencies fall between electronic (measurement of field with antennas) and optical (measurement of power with optical detectors) means of generation. THz measurements may yield useful information about the structural and chemical nature of the material inspected. Examples include detection of voids in materials and protein binding in biomolecules. This report provides an overview of THz measurements of defects in fiber composites. We find that it efficiently detects defects such as voids and delamination in glass fiber composites better than ultrasound, which was widely used for defect characterization in glass fiber earlier. Comparison of the existing methods with THz is presented in the report for characterization of defects.

Defect detection

Voids

NDT

NDE

T-rays

THz

Terahertz

Terahertz technology

Imaging systems

Fibrous composites

Composite materials

Monitoring dynamic calcium homeostasis alterations by T₁-weighted and T₁-mapping cardiac manganese enhanced MRI (MEMRI) in a murine myocardial infarction model

Waghorn, Benjamin J.

12 January 2009

Manganese has been used as a T₁-weighted MRI contrast agent in a variety of applications. Because manganese ions (Mn²) enter viable myocardial cells via voltage gated calcium channels, manganese-enhanced MRI (MEMRI) is sensitive to the viability and the inotropic state of the heart. In spite of the established importance of calcium regulation in the heart both prior to, and following, myocardial injury, monitoring strategies to assess calcium homeostasis in affected cardiac tissues are limited. This study implements a T₁-mapping method to obtain quantitative information both dynamically and over a range of MnCl₂ infusion doses. In order to optimize the current manganese infusion protocols, both dose dependent and temporal washout studies were performed. A non-linear relationship between infused MnCl₂ solution dose and increase in left ventricular free wall relaxation rate (∆R₁) was observed. Control mice also exhibited significant manganese clearance over time, with approximately 50% decrease of ∆R₁ occurring in just 2.5 hours. The complicated efflux time dependence possibly suggests multiple efflux mechanisms. Using the measured relationship between infused MnCl₂ and ∆R₁, absolute Mn concentration ICP-MS data analysis provided a means to estimate the absolute heart Mn concentration in vivo. We have shown that this technique has the sensitivity to observe or monitor potential Ca²+ handling alterations in vivo due to the physiological remodeling following myocardial infarction. Left ventricular free wall ∆R₁ values were significantly lower (P = 0.005) in the adjacent zone, surrounding the injured myocardial tissue, than healthy left ventricular free wall tissue. This inferred reduction in Mn concentration can be used to estimate potentially salvageable myocardium in vivo for future therapeutic treatment or evaluation of disease progression.

Mouse

Cardiac MRI

T1-mapping

Heart

Manganese

Calcium

Myocardial infarction

Magnetic resonance imaging

Diagnostic imaging

Imaging systems in medicine

Optical coherence tomography : technology enhancements and novel applications

Silva, K.K.M. Buddhika Dilusha

January 2004

In the last fifteen years, a great deal of effort has been put forth, worldwide, for investigating and enhancing various aspects of optical coherence tomography (OCT). This thesis begins with a description of the technique of OCT, and an analysis of its underlying theory. The design and construction of an OCT system is described, with particular emphasis on a novel delay scanning method, and novel signal processing. Application of OCT to non-destructive characterisation of seeds, examination of skin lesions, measurement of fluid flow, and refractive index determination, are then demonstrated. Two technological enhancements to OCT are presented in this thesis. The first, an extended-range Fourier domain optical delay line (FDODL), extends the scan range of the traditional FDODL by a factor of almost 9, by scanning the galvanometer mirror around the region of zero tilt-angle. Polarisation optics are used to prevent light coupling back into the interferometer after only a single pass through the FDODL. A non-coplanar version of the FDODL is also presented, which overcomes the losses associated with the polarisation-based design, but trades off scan range to do so. Both versions of FDODL demonstrated excellent linearity and scan uniformity. The second technology presented here, bifocal optical coherence refractometry (BOCR), affords OCT the ability to measure refractive indices within turbid media. It achieves this by generating two confocal gates within the sample. From knowledge of the system parameters, and measurements of the confocal gate separation, the refractive index within the medium is evaluated to within ±0.01. Refractive index mapping is then demonstrated in a number of turbid samples. Three other applications of OCT are also demonstrated in this thesis. The first is the use of OCT to measure full thickness in lupin seeds. Although OCT could not penetrate the entire thickness of the hull, it is demonstrated that the variation in thickness of the two layers observed with OCT, explained 81% of the variation in thickness of the entire hull measured under a SEM. OCT was then applied, for what is believed to be the first time, in a large scale seed screening program. The second application is a preliminary investigation of the suitability of OCT to aid in the diagnosis of skin lesions. Although our system did not possess sufficient positioning accuracy to enable a direct one-to-one comparison between OCT and histology, a number of correspondences between OCT and histology images were demonstrated. The final application of OCT demonstrated here is a novel phase-locked-loop based demodulation scheme, to perform Doppler OCT. This demodulation scheme demonstrated a dynamic range of 98dB, a velocity range of ±20mm/s, and velocity resolution of 0.5mm/s. Using this system, laminar flow was demonstrated in milk flowing through a capillary tube.

Optical tomography

Coherence (Optics)

Imaging systems in medicine

Optical coherence tomography

Skin lesions

Delay lines

Skin cancer

Biomedical optics

Medical imaging

Diagnostic imaging pathways

Dhillon, Ravinder

January 2007

[Truncated abstract] Hypothesis: There is deficiency in the evidence base and scientific underpinning of existing diagnostic imaging pathways (DIP) for diagnostic endpoints. Objective: a) To carry out systematic review of literature in relation to use of diagnostic imaging tests for diagnosis and investigation of 78 common clinical problems, b) To identify deficiencies and controversies in existing diagnostic imaging pathways, and to develop a new set of consensus based pathways for diagnostic imaging (DIP) supported by evidence as an education and decision support tool for hospital based doctors and general practitioners, c) To carry out a trial dissemination, implementation and evaluation of DIP. Methods: 78 common clinical presentations were chosen for development of DIP. For general practitioners, clinical topics were selected based on the following criteria: common clinical problem, complex in regards to options available for imaging, subject to inappropriate imaging resulting in unnecessary expenditure and /or radiation exposure, and new options for imaging of which general practitioners may not be aware. For hospital based junior doctors and medical students, additional criteria included: acute presentation when immediate access to expert radiological opinion may be lacking and clinical problem for which there is a need for education. Systematic review of the literature in relation to each of the 78 topics was carried out using Ovid, Pubmed and Cochrane Database of Systematic Reviews. ... The electronic environment and the method of delivery provided a satisfactory medium for dissemination. Getting DIP implemented required vigorous effort. Knowledge of diagnostic imaging and requesting behaviour tended to become more aligned with DIP following a period of intensive marketing. Conclusions: Systematic review of literature and input and feedback from various clinicians and radiologists led to the development of 78 consensus based Diagnostic Imaging Pathways supported by evidence. These pathways are a valuable decision support tool and are a definite step towards incorporating evidence based medicine in patient management. The clinical and academic content of DIP is of practical use to a wide range of clinicians in hospital and general practice settings. It is source of high level knowledge; a reference tool for the latest available and most effective imaging test for a particular clinical problem. In addition, it is an educational tool for medical students, junior doctors, medical imaging technologists, and allied health care personnel.

Image processing -- Digital techniques

Diagnostic imaging

Diagnostic imaging pathways

Imaging algorithms

Imaging guidelines

Measurements and modeling enhancements for the NPS Minimum Resolvable Temperature Difference Model, VISMODII /

Celik, Mustafa,

January 2001

Thesis (M.A.Sc.)--Naval Postgraduate School, 2001 / Includes bibliographical references (p. 163-166). Also available in electronic format via the Defense Technical Information Center website.

Volume estimation from three-dimensional hyperpolarized 129Xe magnetic resonance images /

White, Steven Andrew,

January 1900

Thesis (M. Sc.)--Carleton University, 2004. / Includes bibliographical references (p. 130-140). Also available in electronic format on the Internet.