Spelling suggestions: "subject:"monocular""
81 |
Study of the Effects of Accommodative Insufficiency Therapy (SEA IT)Shasteen, Nahrain Mary 27 June 2012 (has links)
No description available.
|
82 |
A Visual Field Test Based on the Balance between the Two EyesRoberts, Krista 09 August 2022 (has links)
No description available.
|
83 |
Multiresolution fixation of a binocular vision systemZheng, Bibo 11 July 2009 (has links)
Binocular camera fixation refers to the control of camera movements so that the optical axes of two cameras converge at a single point of interest in a three-dimensional scene. This thesis describes the theory and high-level algorithms for a procedure that can locate fixation points in an image pair. The binocular fixation procedure which has been developed here combats several difficult fixation problems that are hard to overcome with traditional approaches. Examples of this are objects lacking in visual texture, scenes with occluding conditions, repeating patterns, and objects which are steeply slanted with respect to the image planes.
In order to deal with low-contrast image regions, the system is capable of detecting nearby salient points and shifting attention to a new salient target. Based on local image information, the system adaptively determines an initial window size using an Autoregressive-Moving Average (ARMA) modeling technique. Area-based feature matching is performed using normalized cross-covariance within a multiresolution image hierarchy. Gaussian low-pass filters of increasing spatial resolution are used to construct the hierarchy, and matching is performed in coarse-to-fine order. Finally, affine image warping is used in some cases to reduce the effects of perspective distortion so that area based image comparison is improved.
The method presented here can serve as the foundation of a stereo tracking system, and has potential applications in such areas as autonomous vehicle navigation, industrial process control, and visually guided robot manipulation. / Master of Science
|
84 |
Linking binocular vision neuroscience with clinical practiceBradley, A., Barrett, Brendan T., Saunders, K.J. 03 1900 (has links)
Yes / Binocularity in the human visual system poses two interesting and extremely challenging questions. The first, and perhaps most obvious stems from the singularity of perception even though the neural images we see originate as two separate images in the right and left eyes. Mechanistically we can ask how and where do we convert two images into one? The second question is more of a “why” question. By converting lateral eyes with their inherent panoramic visual field into frontal eyes with overlapping binocular visual fields, primates have developed an extremely large blind region (the half of the world behind us). We generally accept that this sacrifice in visual field size was driven by the potential benefit of extracting information about the 3rd dimension from overlapping right and left eye visual fields. For some people, both of these core processes of binocularity fail: a single fused binocular image is not achieved (when diplopia or suppression is present), and the ability to accurately represent the 3rd dimension is lost (stereo-blindness). In addition to these failures in the core functions of the human binocular system, early imbalances in the quality of right and left eye neural images (e.g. due to anisometropia, monocular deprivation, and/or strabismus), can precipitate profound neurological changes at a cortical level which can lead to serious vision loss in one eye (amblyopia). Caring for patients with malfunctioning binocular visual systems is a core therapeutic responsibility of the eye care professions (optometry, ophthalmology and orthoptics) and significant advances in patient care and subsequent visual outcomes will be gained from a deeper understanding of how the human brain accomplishes full binocular integration.
This feature issue on binocular vision brings together original articles and reviews from leading groups of neuroscientists, psychophysicists and clinical scientists from around the world who embrace the multidisciplinary nature of this topic. Our authors have taken on the big issues facing the research community tasked with understanding how binocular vision is meant to work, how it fails, and how to better treat those with compromised binocularity. These studies address deep issues about how the human brain functions and how it fails, as well as how it can be altered by therapy.
|
85 |
Extraordinary Claims Require Extraordinary Evidence: Centrally Mediated Preservation of Binocular Visual Field in Glaucoma is UnlikelyDenniss, Jonathan, Artes, Paul H. 01 1900 (has links)
Yes / We have read with interest the recent article by Sponsel et al.1 There is much evidence that glaucomatous damage occurs at the optic nerve head,2 and therefore we were surprised by the authors' conjecture that there may be a central mechanism that preserves the binocular visual field in advanced glaucoma.
|
86 |
Contrast sensitivity and glare : new measurement techniques and the visual consequences of wearing head-mounted displaysLongley, Christopher I. January 2016 (has links)
The main aim of this thesis was to evaluate the performance of the contrast sensitivity clock (CSC), a new screening device for measuring contrast sensitivity (CS) and glare. This device allows CS without glare, with glare and disability glare scores to be recorded. After initial data collection the design of the CSC was slightly amended improving the performance of the device. The amended design of the CSC was shown to be a valid, discriminative and repeatable measure for purpose. The CSC is also a quick test to perform and is relatively cheap to produce. If all these factors are considered it shows potential to become the test of choice for the assessment of visual glare. A head-mounted display system was also evaluated in terms of the glare effects it may cause. The monocular display screen of the device significantly reduced the CS of the eye directly exposed but also had an effect on binocular performance, reducing amounts of binocular summation. Electronic devices, including head-mounted displays and satellite navigation systems can seriously affect CS at low luminance levels, similar to those found when driving at night.
|
87 |
Recuperação de informações tridimensionais a partir de múltiplas imagens / Recovering of three-dimensional information from multiple imagesGomes, Marcelo Marques 20 August 2018 (has links)
Orientador: Clésio Luis Tozzi / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Elétrica e de Computação / Made available in DSpace on 2018-08-20T02:20:27Z (GMT). No. of bitstreams: 1
Gomes_MarceloMarques_M.pdf: 2920969 bytes, checksum: 0ae0c041b47241b92c32e9792f18d608 (MD5)
Previous issue date: 2012 / Resumo: Este trabalho aborda a solução para o problema da recuperação da informação tridimensional somente a partir de imagens da cena ou do objeto que se deseja modelar desconhecidas as informações a respeito das câmeras utilizadas. A solução apresentada divide-se em duas partes: na primeira se estabelece a relação entre pares ou trios de câmeras utilizando matriz fundamental ou tensor trifocal, respectivamente e a partir dessas relações obtém-se por meio de triangulação uma reconstrução tridimensional da cena ou do objeto observado em função de uma transformação projetiva arbitrária. Na segunda parte determina-se uma transformação que leva a cena ou o objeto obtidos no espaço projetivo para o espaço métrico. Essa transformação que leva o objeto recuperado no espaço projetivo para o espaço métrico é encontrada por meio de autocalibração utilizando o plano no infinito e a cônica absoluta que apresentam a propriedade de serem invariantes a rotação, translação e escala, em relação a um referencial escolhido arbitrariamente. Dependendo do número de imagens disponíveis é necessário inserir restrições nos parâmetros intrínsecos das câmeras para viabilizar o cálculo da transformação. Essas restrições são inseridas na forma de suposições a respeito dos parâmetros intrínsecos das câmeras, como pontos principais conhecidos ou constantes entre as câmeras, skew nulo, relação de aspecto unitária etc. Os resultados da reconstrução no espaço projetivo obtidos com o uso da matriz fundamental e do tensor trifocal foram comparados em relação ao erro de reconstrução utilizando protótipo implementado em Matlab e imagens sintéticas. A solução geral foi avaliada em relação ao erro de reprojeção, reconstrução no espaço métrico com base em imagens sintéticas e imagens reais de objetos conhecidos, utilizando um protótipo desenvolvido na plataforma Embarcadero Delphi / Abstract: This work addresses a solution to the problem of recovering three-dimensional information from images of a scene or modeled object based only on images and without any information of the cameras parameters. The presented solution is divided in two parts: in the first part it is established the relationship between a pair or a triple of cameras using the fundamental matrix or trifocal tensor, respectively, and obtained by triangulation a three-dimensional reconstruction of the observed scene or object in function of an arbitrary projective transformation. In the second part it is determined a transformation to covert the obtained scene or object reconstruction from the projective space to the metric space. This transformation is found by auto-calibration using the plane at infinity and the absolute conic which have the property of being invariant to rotation, translation and scale in relation to an arbitrarily chosen reference frame. According to the number of available images, restrictions on the intrinsic parameters may be necessary in order to obtain a valid transformation. These restrictions are inserted in the form of assumptions about the values of the intrinsic parameters of the cameras or relations between then, like known principal points or constant values for the cameras, zero skew, unit aspect ratio and so on. Using synthetic images and a prototype implemented in Matlab, the results of reconstruction in projective space based on the fundamental matrix and trifocal tensor were compared in relation to the error of reconstruction. Based on synthetic images and real images of known objects and a prototype developed in the Embarcadero Delphi platform, the general solution was evaluated in relation to the reprojection error and the error of reconstruction in the metric space / Mestrado / Engenharia de Computação / Mestre em Engenharia Elétrica
|
88 |
Contrast sensitivity and glare: new measurement techniques and the visual consequences of wearing head-mounted displaysLongley, Christopher I. January 2016 (has links)
The main aim of this thesis was to evaluate the performance of the contrast sensitivity clock (CSC), a new screening device for measuring contrast sensitivity (CS) and glare. This device allows CS without glare, with glare and disability glare scores to be recorded. After initial data collection the design of the CSC was slightly amended improving the performance of the device. The amended design of the CSC was shown to be a valid, discriminative and repeatable measure for purpose. The CSC is also a quick test to perform and is relatively cheap to produce. If all these factors are considered it shows potential to become the test of choice for the assessment of visual glare. A head-mounted display system was also evaluated in terms of the glare effects it may cause. The monocular display screen of the device significantly reduced the CS of the eye directly exposed but also had an effect on binocular performance, reducing amounts of binocular summation. Electronic devices, including head-mounted displays and satellite navigation systems can seriously affect CS at low luminance levels, similar to those found when driving at night.
|
89 |
Binocular vision and three-dimensional motion perception : the use of changing disparity and inter-ocular velocity differencesGrafton, Catherine E. January 2011 (has links)
This thesis investigates the use of binocular information for motion-in-depth (MID) perception. There are at least two different types of binocular information available to the visual system from which to derive a perception of MID: changing disparity (CD) and inter-ocular velocity differences (IOVD). In the following experiments, we manipulate the availability of CD and IOVD information in order to assess the relative influence of each on MID judgements. In the first experiment, we assessed the relative effectiveness of CD and IOVD information for MID detection, and whether the two types of binocular information are processed by separate mechanisms with differing characteristics. Our results suggest that, both CD and IOVD information can be utilised for MID detection, yet, the relative dependence on either of these types of MID information varies between observers. We then went on to explore the contribution of CD and IOVD information to time-to-contact (TTC) perception, whereby an observer judges the time at which an approaching stimulus will contact them. We confirmed that the addition of congruent binocular information to looming stimuli can influence TTC judgements, but that there is no influence from binocular information indicating no motion. Further to this, we found that observers could utilise both CD and IOVD for TTC judgements, although once again, individual receptiveness to CD and/or IOVD information varied. Thus, we demonstrate that the human visual system is able to process both CD and IOVD information, but the influence of either (or both) of these cues on an individual’s perception has been shown to be mutually independent.
|
90 |
[en] A MODEL FOR STEREOSCOPIC VISUALIZATION THROUGH WEBCAMS / [pt] UM MODELO PARA VISUALIZAÇÃO ESTEREOSCÓPICA UTILIZANDO WEBCAMSANTONIA LUCINELMA PESSOA ALBUQUERQUE 01 December 2006 (has links)
[pt] As comunicações à distância estão crescendo
consideravelmente pelo uso de
aplicações através da Internet e de ambientes virtuais.
Interaçõoes sociais
e pessoais têm recebido especial enfoque, sobretudo a
videoconferência,
acarretando uma grande demanda de tecnologia apropriada
para esses
sistemas. Resultados de pesquisas em Presença, alguns
deles obtidos nesta
tese, permitiram inferir os quatro pilares da proposta:
1.
visualização é
muito importante nas interações sociais/pessoais; 2.
tecnologia simples pode
promover presença social; 3. imagens de câmera são mais
satisfatórias do que
avatares para algumas interações sociais/pessoais; 4.
estereoscopia influência
presença positivamente. Sob a restrição de usar
tecnologia
simples e de baixo
custo, a tese propõe o uso de visualização estereoscópica
para webcams, em
tempo real. Porque webcams são equipamentos simples com
baixa resolução
de imagem, a obtenção de um estéreo com qualidade torna-
se
um desafio.
Partindo do princípio que o olho humano não se comporta
da
mesma forma
para ver de perto e de longe, a pesquisa analisou o
processamento de estéreo
natural do olho humano, e com base em resultados
psicofísicos e fisiológicos
da visão binocular, a tese propõe um modelo para o
processamento de
imagens estereoscópicas a serem visualizadas em curta
distância, e usa
este modelo na implementação apresentada. Os resultados
obtidos foram
satisfatórios para a visualização de imagens estéreo com
webcams, em tempo
real, e principalmente, eliminaram a necessidade de
reajuste de paralaxe
das imagens e do reposicionamento das câmeras a cada
movimentação do
observador, dando assim mais liberdade de visualização ao
observador. / [en] The improvement of communication among remotely located
people constitutes
a very comprehensive prominent subject nowadays. Among
applications
to attain this goal, some aim to support social and
personal interactions
to meet partners, friends and family in distance. Presence
research
results, some obtained as part of this thesis, allowed to
infer the four pillars
of the proposal: 1. visualization is very important in
social/personal
interactions, mainly when people have close
social/personal relationship; 2.
simple technology can afford social presence; 3. camera
images are more
satisfactory than avatars during some social/personal
interactions; 4. stereoscopy
influences presence positively. Under the constraint of
using simple
technology without adding any special hardware to a PC
system, the thesis
proposes the use of stereoscopy through webcams, in real-
time, as one
solution to add 3D features to camera images. Since
webcams are simple
equipments with low resolution, to obtain stereo images in
good quality
is a challenge. Considering the fact that human eyes treat
short and long
distance in a different way, this research analysed the
natural stereo processing
of human eye, and based on psychophysical and
physiological features of
binocular vision, the thesis proposes a model to process
stereoscopic images
to be visualized in short distance, and implemented it as
a proof of concept.
The obtained results are satisfactory for stereoscopic
images visualization
through webcams, in real-time, and mainly, eliminated the
need of adjusting
images parallax and cameras position for each viewer´s
movement, allowing
more freedom to the viewer.
|
Page generated in 0.0538 seconds