Global ETD Search

11	When, Where and What : The Development of Perceived Spatio-Temporal Continuity Kochukhova, Olga January 2007 (has links) This thesis explored the development of infants’ ability to preserve spatio-temporal continuity of moving objects in situations where they disappeared completely (Study I & II) or partially (Study III) behind other objects (occluders). We recorded infants gaze direction with the help of two different techniques: 1) infants’ gaze shifts in Study I were measured with electro-oculogram (EOG) in combination with a motion analyzing system (Qualisys) that recorded the reflected infrared light from markers placed on the infant’s head and the moving object; 2) in Studies II and III a cornea reflection eye tracker was used (Tobii 1750) . The results presented in this thesis demonstrate that 4-month-old infants are able to represent the temporal aspects of object motion during different periods of complete occlusion (Study I). At 6 months of age infants are able not only to predict the time when a moving object will reappear after complete occlusion but they are also capable to extrapolate pre-occlusion trajectory of the moving object and, thus, to accurately predict its reappearance (Study II). Moreover, in the situation where a linear pre-occlusion trajectory of the moving object is violated (the object turns by 90 degrees behind the occluder), infants at this age are capable of rapidly learning this new experience and base their future gaze shifts over occluder on the newly acquired knowledge. They are also able to preserve this new experience over a 24-hour period. In the situations where occlusion is not complete and some visual information is still available (Study III), 9-month-old infants and to a lesser extent 5-month-old infants are able to reconstruct the moving pattern and to follow its direction of motion with the smooth eye movements. Moreover, 9-month-olds are capable to produce such smooth pursuit at an adult-like level. Psychology infants occlusion incomplete visual information saccadic gaze shifts smooth pursuit temporal spatial object representation learning extrapolation Psykologi
12	Visual Object Representations: Effects Of Feature Frequency And Similarity Eren Kanat, Selda 01 December 2011 (has links) (PDF) The effects of feature frequency and similarity on object recognition have been examined through behavioral experiments, and a model of the formation of visual object representations and old/new recognition has been proposed. A number of experiments were conducted to test the hypothesis that frequency and similarity of object features affect the old/new responses to test stimuli in a later recognition task. In the first experiment, when the feature frequencies are controlled, there was a significant increase in the percentage of &ldquo / old&rdquo / responses for unstudied objects as the number of frequently repeated features (FRFs) on the object increased. In the second experiment, where all features had equal frequency, similarity of test objects did not affect old/new responses. An evaluation of the models on object recognition and categorization with respect to the experimental results showed that these models can only partially explain experimental results. A comprehensive model for the formation of visual object representations and old/new recognition, called CDZ-VIS, developed on the Convergence-Divergence Zone framework by Damasio (1989), has been proposed. According to this framework, co-occurring object features converge to upper layer units in the hierarchical representation which act as binding units. As more objects are displayed, frequent object features cause grouping of these binding units which converge to upper binding units. The performance of the CDZ-VIS model on the feature frequency and similarity experiments of the present study was shown to be closer to the performance of the human participants, compared to the performance of two models from the categorization literature. H General Social Sciences 1-99
13	Exploring the internal configuration of the cycloid personality : a Rorschach comprehensive system Daws, Loray 16 June 2012 (has links) Exploring the cycloid temperament has been attempted throughout the ages by various pioneers in psychiatry, psychology and psychoanalysis. Contemporary psychiatric approaches have estimated that cycloid pathology, most evident as Bipolar Disorder, accounts for more than 1% of the population and is seen as the sixth leading cause of all illnesses. Despite the latter it is remains a desperately understudied area psychologically. Theoretically, BD is known for (1) its complex epidemiology, (2) costly treatment, (3) occupational impairment; (4) its negative interpersonal implications, (5) negative domestic effects, (6) forensic consequences, (7) death due to suicide and accidents, (8) cost in treatment, and finally, and most importantly from a humanistic perspective, (9) BD's diminished quality of life. Given the various realities faced by those suffering from Bipolar disorder the current study aimed at describing, through the use of the Rorschach Comprehensive system (CS), the self and object-representations, as well as the affect experiences of fifty, predominantly Bipolar I inpatients. The patients were selected through opportunity sampling at two provincial psychiatric hospitals in South Africa and included Caucasian, African and Colored respondents. All protocols were administered and scored by trained CS clinicians and re-scored by both the author and supervisor. Fifteen protocols were thereafter randomly assigned to three inter-raters and a high level of inter-rater reliability seemed evident. Given various inherent limitations of the study, that is, (a) a study of limited scope, (b) the heterogeneous nature of the sample and the reliance on opportunity sampling, (c) the small sample size, (d) lack of a control group, and (d) the focus of the study as exploratory-descriptive in nature, basic descriptive statistic were relied upon. Despite the various limitations, the results obtained seemed to hint at the possibility of a Neglected Self, characterised by difficulties in modulating affect in moderation, lack of self-esteem and positive self-regard, difficulties in introspection and self-inspecting behaviour, a general lack of interpersonal comfort and feelings of threat, as well as affectional and representational constriction. The presence of impaired self-regulation and reflection, possible perceptual differences in sensory-affective reactivity and processing, as well as difficulties in representational elaboration and differentiation needs further research and comparison to other psychiatric disorders. Basic therapeutic inferences were also discussed that may support those who treat cycloid patients. / Thesis (PhD)--University of Pretoria, 2012. / Psychology / unrestricted Bipolar disorder object-representation Object relations Rorschach comprehensive system Cycloid personality Viewing the self Affect Self-representation Internal configuration Descriptive statistics Self-representation Interpersonal perception Neglected-self UCTD
14	Low-level and high-level modulations of fixational saccades and high frequency oscillatory brain activity in a visual object classification task Kosilo, Maciej, Würger, Sophie M., Craddock, Matt, Jennings, Ben J., Hunt, Amelia R., Martinovic, Jasna 01 August 2022 (has links) Until recently induced gamma-band activity (GBA) was considered a neural marker of cortical object representation. However, induced GBA in the electroencephalogram (EEG) is susceptible to artifacts caused by miniature fixational saccades. Recent studies have demonstrated that fixational saccades also reflect high-level representational processes. Do high-level as opposed to low-level factors influence fixational saccades? What is the effect of these factors on artifact-free GBA? To investigate this, we conducted separate eye tracking and EEG experiments using identical designs. Participants classified line drawings as objects or non-objects. To introduce low-level differences, contours were defined along different directions in cardinal color space: S-cone-isolating, intermediate isoluminant, or a full-color stimulus, the latter containing an additional achromatic component. Prior to the classification task, object discrimination thresholds were measured and stimuli were scaled to matching suprathreshold levels for each participant. In both experiments, behavioral performance was best for full-color stimuli and worst for S-cone isolating stimuli. Saccade rates 200–700 ms after stimulus onset were modulated independently by low and high-level factors, being higher for full-color stimuli than for S-cone isolating stimuli and higher for objects. Low-amplitude evoked GBA and total GBA were observed in very few conditions, showing that paradigms with isoluminant stimuli may not be ideal for eliciting such responses. We conclude that cortical loops involved in the processing of objects are preferentially excited by stimuli that contain achromatic information. Their activation can lead to relatively early exploratory eye movements even for foveally-presented stimuli. info:eu-repo/classification/ddc/150 ddc:150
15	Trasování objektu v reálném čase / Visual Object Tracking in Realtime Kratochvíla, Lukáš January 2019 (has links) Sledování obecného objektu na zařízení s omezenými prostředky v reálném čase je obtížné. Mnoho algoritmů věnujících se této problematice již existuje. V této práci se s nimi seznámíme. Různé přístupy k této problematice jsou diskutovány včetně hlubokého učení. Představeny jsou reprezentace objektu, datasety i metriky pro vyhodnocování. Mnoho sledovacích algorimů je představeno, osm z nich je implementováno a vyhodnoceno na VOT datasetu.
16	The Stixel World Pfeiffer, David 31 August 2012 (has links) Die Stixel-Welt ist eine neuartige und vielseitig einsetzbare Zwischenrepräsentation zur effizienten Beschreibung dreidimensionaler Szenen. Heutige stereobasierte Sehsysteme ermöglichen die Bestimmung einer Tiefenmessung für nahezu jeden Bildpunkt in Echtzeit. Das erlaubt zum einen die Anwendung neuer leistungsfähiger Algorithmen, doch gleichzeitig steigt die zu verarbeitende Datenmenge und der dadurch notwendig werdende Aufwand massiv an. Gerade im Hinblick auf die limitierte Rechenleistung jener Systeme, wie sie in der videobasierten Fahrerassistenz zum Einsatz kommen, ist dies eine große Herausforderung. Um dieses Problem zu lösen, bietet die Stixel-Welt eine generische Abstraktion der Rohdaten des Sensors. Jeder Stixel repräsentiert individuell einen Teil eines Objektes im Raum und segmentiert so die Umgebung in Freiraum und Objekte. Die Arbeit stellt die notwendigen Verfahren vor, um die Stixel-Welt mittels dynamischer Programmierung in einem einzigen globalen Optimierungsschritt in Echtzeit zu extrahieren. Dieser Prozess wird durch eine Vielzahl unterschiedlicher Annahmen über unsere von Menschenhand geschaffene Umgebung gestützt. Darauf aufbauend wird ein Kalmanfilter-basiertes Verfahren zur präzisen Bewegungsschätzung anderer Objekte vorgestellt. Die Arbeit stellt umfangreiche Bewertungen der zu erwartenden Leistungsfähigkeit aller vorgestellten Verfahren an. Dafür kommen sowohl vergleichende Ansätze als auch diverse Referenzsensoren, wie beispielsweise LIDAR, RADAR oder hochpräzise Inertialmesssysteme, zur Anwendung. Die Stixel-Welt ist eine extrem kompakte Abstraktion der dreidimensionalen Umgebung und bietet gleichzeitig einfachsten Zugriff auf alle essentiellen Informationen der Szene. Infolge dieser Arbeit war es möglich, die Effizienz vieler auf der Stixel-Welt aufbauender Algorithmen deutlich zu verbessern. / The Stixel World is a novel and versatile medium-level representation to efficiently bridge the gap between pixel-based processing and high-level vision. Modern stereo matching schemes allow to obtain a depth measurement for almost every pixel of an image in real-time, thus allowing the application of new and powerful algorithms. However, it also results in a large amount of measurement data that has to be processed and evaluated. With respect to vision-based driver assistance, these algorithms are executed on highly integrated low-power processing units that leave no room for algorithms with an intense calculation effort. At the same time, the growing number of independently executed vision tasks asks for new concepts to manage the resulting system complexity. These challenges are tackled by introducing a pre-processing step to extract all required information in advance. Each Stixel approximates a part of an object along with its distance and height. The Stixel World is computed in a single unified optimization scheme. Strong use is made of physically motivated a priori knowledge about our man-made three-dimensional environment. Relying on dynamic programming guarantees to extract the globally optimal segmentation for the entire scenario. Kalman filtering techniques are used to precisely estimate the motion state of all tracked objects. Particular emphasis is put on a thorough performance evaluation. Different comparative strategies are followed which include LIDAR, RADAR, and IMU reference sensors, manually created ground truth data, and real-world tests. Altogether, the Stixel World is ideally suited to serve as the basic building block for today''s increasingly complex vision systems. It is an extremely compact abstraction of the actual world giving access to the most essential information about the current scenario. Thanks to this thesis, the efficiency of subsequently executed vision algorithms and applications has improved significantly. Bildsegmentierung Freiraum Optischer Fluss Die Stixel-Welt Stixel Stereo vision Dichtes Stereo Zwischenrepräsentation Szenenrepräsentation Maximum a posteriori Schätzproblem Globale Optimierung Dynamische Programmierung Hindernisse Objektrepräsentation Bewegungsschätzung Objektverfolgung Bewegungzustandschätzung Kalmanfilter Auswertung LIDAR RADAR KLT-Tracker Robustheit Sensormodell evaluation Kalman filter Image segmentation The Stixel World Stixels Stereo vision Dense stereo Medium-level representation Scene representation Maximum a posteriori estimation Global optimization Dynamic programming Obstacles Freespace Object representation Motion estimation Object tracking LIDAR RADAR Optical flow KLT-tracker Robustness Sensor model 004 Informatik 28 Informatik, Datenverarbeitung ST 330 ddc:004

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