Improving Peripheral Vision Through Optical Correction and Stimulus Motion

Lewis, Peter

January 2016

The loss of central vision subsequent to macular disease is often extremely debilitating. People with central field loss (CFL) must use other peripheral areas of the retina in order to see; areas with inferior resolution capacity, which are also affected by off-axis optical errors. The overall aim of the work encompassed by this thesis was to identify and evaluate methods of improving vision for people with CFL; with focus on the effects of off-axis optical correction and stimulus motion on resolution acuity and contrast sensitivity. Off-axis optical errors were measured using a commercially-available COAS-HD VR open-view aberrometer. We used adaptive psychophysical methods to evaluate grating resolution acuity and contrast sensitivity in the peripheral visual field; drifting gratings were employed to   measure the effect of motion on these two measures of visual performance. The effect of sphero-cylindrical correction and stimulus motion on visual performance in healthy eyes and in subjects with CFL was also studied; in addition, the effect of adaptive optics aberration correction was examined in one subject with CFL. The COAS-HD aberrometer provided rapid and reliable measurements of off-axis refractive errors. Correction of these errors gave improvements in low-contrast resolution acuity in subjects with higher amounts of oblique astigmatism. Optical correction also improved high-contrast resolution acuity in most subjects with CFL, but not for healthy subjects. Adaptive optics correction improved both high and low contrast resolution acuity in the preferred retinal locus of a subject with CFL. The effect of stimulus motion depended on spatial frequency; motion of 7.5 Hz improved contrast sensitivity for stimuli of low spatial frequency in healthy and CFL subjects. Motion of 15 Hz had little effect on contrast sensitivity for low spatial frequency but resulted in reduced contrast sensitivity for higher spatial frequencies in healthy subjects. Finally, high-contrast resolution acuity was relatively insensitive to stimulus motion in the periphery. This thesis has served to broaden the knowledge regarding peripheral optical errors, stimulus motion and their effects on visual function, both in healthy subjects and in people with CFL. Overall it has shown that correction of off-axis refractive errors is important for optimizing peripheral vision in subjects with CFL; the use of an open-view aberrometer simplifies the determination of these errors. In addition, moderate stimulus motion can have a beneficial effect on contrast sensitivity for objects of predominantly low spatial frequency.

absolute central scotoma

central visual field loss

eccentric viewing

preferred retinal locus

open-view aberrometer

off-axis refractive errors

eccentric correction

dynamic visual acuity

spatial contrast sensitivity

temporal contrast sensitivity

spatio-temporal contrast sensitivity

Watermarking For 3d Representations

Koz, Alper

01 August 2007

In this thesis, a number of novel watermarking techniques for different 3D representations are presented. A novel watermarking method is proposed for the mono-view video, which might be interpreted as the basic implicit representation of 3D scenes. The proposed method solves the common flickering problem in the existing video watermarking schemes by means of adjusting the watermark strength with respect to temporal contrast thresholds of human visual system (HVS), which define the maximum invisible distortions in the temporal direction. The experimental results indicate that the proposed method gives better results in both objective and subjective measures, compared to some recognized methods in the literature. The watermarking techniques for the geometry and image based representations of 3D scenes, denoted as 3D watermarking, are examined and classified into three groups, as 3D-3D, 3D-2D and 2D-2D watermarking, in which the pair of symbols identifies whether the watermark is embedded-detected in a 3D model or a 2D projection of it. A detailed literature survey on 3D-3D watermarking is presented that mainly focuses on protection of the intellectual property rights of the 3D geometrical representations. This analysis points out the specific problems in 3D-3D geometry watermarking , such as the lack of a unique 3D scene representation, standardization for the coding schemes and benchmarking tools on 3D geometry watermarking. For 2D-2D watermarking category, the copyright problem for the emerging free-view televisions (FTV) is introduced. The proposed watermarking method for this original problem embeds watermarks into each view of the multi-view video by utilizing the spatial sensitivity of HVS. The hidden signal in a selected virtual view is detected by computing the normalized correlation between the selected view and a generated pattern, namely rendered watermark, which is obtained by applying the same rendering operations which has occurred on the selected view to the original watermark. An algorithm for the estimation of the virtual camera position and rotation is also developed based on the projective planar relations between image planes. The simulation results show the applicability of the method to the FTV systems. Finally, the thesis also presents a novel 3D-2D watermarking method, in which a watermark is embedded into 3-D representation of the object and detected from a 2-D projection (image) of the same model. A novel solution based on projective invariants is proposed which modifies the cross ratio of the five coplanar points on the 3D model according to the watermark bit and extracts the embedded bit from the 2D projections of the model by computing the cross-ratio. After presenting the applicability of the algorithm via simulations, the future directions for this novel problem for 3D watermarking are addressed.

Étude de la mise en forme temporelle d’impulsions laser de haute puissance pour l’excitation des sources laser X-UV sur la plateforme LASERIX / Study of temporal shaping of ultra-intense laser pulses for X-UV sources excitation on LASERIX facility

Delmas, Olivier

18 December 2015

La présente thèse s’inscrit dans le cadre du développement des lasers X-UV générés en régime collisionnel transitoire et a pour objet principal d’étudier l’influence de la mise en forme temporelle des impulsions laser de haute puissance sur l’efficacité de génération de ces sources. Mon travail essentiellement expérimental a consisté à étudier de nouveaux schémas de pompage mettant en oeuvre différents dispositifs permettant de produire des préimpulsions et/ou un piédestal d’ASE au sein de la chaîne laser pilote. Dans ce manuscrit, je présente ces dispositifs et montre l’influence des différents paramètres laser sur l’efficacité de production du laser X-UV. L’étude expérimentale met tout d’abord en évidence une augmentation significative de l’énergie et de la durée de vie dela source laser X-UV en présence d’une préimpulsion.Dans ce contexte, un dispositif a été expérimenté permettant de générer au sein d’un unique faisceau laser, les deux principales impulsions précédées de la pré-impulsion, tout en gardant un contrôle sur leurs caractéristiques spectro-temporelles.Une approche alternative a été expérimentée dans laquelle un laser annexe « Q-switch » à bas coût est utilisé pour générer un plasma peu dense avecde faibles gradients de densité. Ce dernier dispositif a montré d’excellentes performances sur une large plage de longueur d’onde, et a été utilisé pour réaliser une expérience d’injection d’harmoniques d’ordre élevé, générées sur la voies econdaire à partir d’une cellule de gaz d’Argon.Une amélioration notable des caractéristiques spatiales et de la cohérence temporelle du laserX-UV a pu être observée. / The thesis fits within the framework ofsoft x-ray lasers (SXRL) development and has formain objective to study the influence of the temporal shaping of ultra-intense laser pulses, on the efficiency of SXRL generation. My thesiswork consisted in studying, designing and calibrating new pumping schemes through various devices based on the prepulse generation and/or an amount of ASE within the laser driver.In this manuscript, I study their influence on the SXRL generation efficiency by highlighting the optimization parameters such as the delay and the energy ratio between pulses, or the duration of each of them. The experimental study highlights first of all the influence of a prepulse on the SXRL generation efficiency. In the same framework, a device was experimented, allowing to generate within a single laser beam two mainpulses preceded by a prepulse, while maintaining a control over their spectro-temporalcharacteristics.An alternative approach was experimented in which an additional low cost « Q-Switch » lase rwas used to produce a under dense plasma presenting smooth electronic density gradients.This last device has showed excellent performances on a wide wavelength range andhas been used to perfom an experiment of highorder harmonic seeding generated from an Argongas cell on the secondary LASERIX beamline. A noteworthy improvement of the spatial characteristics and the temporal coherence of theSXRL have been observed.

Laser ultra-Intense

Laser X-UV

Plasma

Contraste temporel

Pré-Impulsion

Ultra-Intense laser

Soft x-Ray laser

Plasma

Temporal contrast

Prepulse

Etude du rayonnement X, Kalpha du molybdène issu de l'intéraction laser solide à fort contraste temporel / Study of molybdenum Kalpha x-ray emission induced by laser solid interaction at high temporal contrast ratio

Azamoum, Yasmina

03 October 2016

Cette thèse expérimentale est consacrée à l’optimisation d’une source de rayons X Kalpha générée par interaction laser femtoseconde à fort contraste temporel avec une cible épaisse en molybdène. Ce travail vise à explorer l’effet du contraste temporel sur l’émission Kalpha sur une gamme d’intensité combinant les deux régimes relativiste et non-relativiste. La première étude est consacrée à l’évolution de l’émission Kalpha en fonction du contraste temporel et de l’intensité. L’étude a révélé différents comportements de l’émission Kalpha suivant la valeur du contraste et d’intensité. L’étude a aussi montré une émission Kalpha indépendante du contraste dans le régime relativiste. Au regard des travaux de la littérature, nous avons proposé une première interprétation des résultats obtenus. Il s’agit d’établir un lien entre l’émission Kalpha et les mécanismes d’absorption de l’énergie laser. Certains mécanismes sont dépendants de l’angle d’incidence. Afin d’appuyer notre interprétation, une deuxième étude du rendement de la source Kalpha en fonction de l’angle d’incidence a été réalisée. Ainsi les résultats obtenus sont en accord avec certaines de nos conclusions. En outre, Nous nous sommes intéressés à l’effet de l’étirement temporel de l’impulsion. Nous avons observé une sensibilité de l’émission suivant le signe du chirp. Enfin, nous avons étudié l’effet du contraste et de l’intensité sur la taille de la source X. Celle-ci est d’autant plus réduite que le contraste est plus fort et devient très proche de la tache focale laser à faible intensité laser. Le rendement de production en photon Kalpha atteint est de 2 × 10^−4, similaire au meilleur rendement reporté à ce jour. / This thesis is focused on the optimization of a Kalpha x-ray source induced by high contrast femtosecond laser molybdenum thick target interaction. The objective of this work is to explore the effect of the temporal contrast ratio on Kalpha emission in an intensity range including the non relativistic and relativistic regimes. The first study consists of the measurement of Kalpha emission as a function of contrast ratio and intensity. The study shows different behaviors of the emission depending on the contrast ratio and intensity range. Furthermore, it was found that in the relativistic regime Kalpha production is independant of the contrast ratio. According to published work in litterature, we proposed a first intepretation of the obtained results. In particular, we discuss the absorption mechanism of laser pulse energy for each contrast ratio and intensity condition. Some of the mechanisms are dependant on the angle of incidence of the pulse on target. Thus, to verify the validity of our interpretation, we study the Kalpha effciency as a function of the angle of incidence. Most of the results agree with our first conclusions. Furthermore, we investigate the effect of the chirped pulse of the Kalpha emission. It is shown that Kalpha emission is sensitive to the sign of the chirp. Finally, we performed a study on the effect of contrast ratio and intensity on the x-ray source size. It was observed that high contrast ratio decreases strongly the x-ray source size which aproaches the focal spot size at low laser intensity. High Kalpha efficiency is reached 2 × 10^−4 which is similar to the highest effciency reported to date in litterature for a thick molybdenum target.

Interaction laser-Cible solide

Rayonnement X

Source Kalpha

Molybdène

Laserfemtoseconde

Plasma

Contraste temporel

Mécanisme d’absorption

Régime relativiste

Laser-Solid target interaction

X rays

Kalpha source

Molybdenum

Femtosecond laser

Plasma

Temporal contrast

Absorption mechanism

Relativistic regime

530