Global ETD Search

121	Object Segmentation, Tracking And Skeletonization In MPEG Video Padmashree, P 07 1900 (has links) (PDF) No description available. Multimedia Systems Image Processing - Digital Techniques MPEG Video Object Segmentation Object Skeletonization Hypervideo Object Tracking Hyper Video Computer Science
122	A Robust Synthetic Basis Feature Descriptor Implementation and Applications Pertaining to Visual Odometry, Object Detection, and Image Stitching Raven, Lindsey Ann 05 December 2017 (has links) Feature detection and matching is an important step in many object tracking and detection algorithms. This paper discusses methods to improve upon previous work on the SYnthetic BAsis feature descriptor (SYBA) algorithm, which describes and compares image features in an efficient and discreet manner. SYBA utilizes synthetic basis images overlaid on a feature region of interest (FRI) to generate binary numbers that uniquely describe the feature contained within the FRI. These binary numbers are then used to compare against feature values in subsequent images for matching. However, in a non-ideal environment the accuracy of the feature matching suffers due to variations in image scale, and rotation. This paper introduces a new version of SYBA which processes FRIâ€™s such that the descriptions developed by SYBA are rotation and scale invariant. To demonstrate the improvements of this robust implementation of SYBA called rSYBA, included in this paper are applications that have to cope with high amounts of image variation. The first detects objects along an oil pipeline by transforming and comparing frame-by-frame two surveillance videos recorded at two different times. The second shows camera pose plotting for a ground based vehicle using monocular visual odometry. The third generates panoramic images through image stitching and image transforms. All applications contain large amounts of image variation between image frames and therefore require a significant amount of correct feature matches to generate acceptable results. feature detection feature description feature matching object tracking visual odometry unmanned aerial vehicle ground vehicle pipeline computer vision Engineering
123	Sledování pohybu míče ve videu / Ball Tracking in Sports Video Motlík, Matúš January 2019 (has links) This master's thesis deals with automatic detection and tracking of a soccer ball in sports videos. Based on the introduced techniques focusing on tracking of small objects in high-resolution videos, effective convolutional neural networks are designed and used by a modified version of tracking algorithm SORT for automatic object detection. A set of experiments with the processing of images in different resolutions and with various frequencies of detection extraction is carried out in order to examine the trade-off between processing speed and tracking accuracy. The obtained results of experiments are presented and used to form proposals for future work, which could lead to improvements in tracking accuracy while maintaining reasonable processing speed.
124	Sledování objektů v panoramatickém videu / Object Tracking in Panoramic Video Ambrož, Vít January 2021 (has links) The master thesis maps the state of the art of visual object tracking in panoramic 360° video. The thesis aims to reveal the main problems related to visual object tracking and moreover focuses on their solution in panoramic videos. In the study of the existing approaches was found that very few solutions of visual object tracking in equirectangular projection of panoramic video have been implemented so far. This thesis therefore presents two improvements of object tracking methods that are based on the adaptation of equirectangular frames. In addition, this thesis brings the manually created dataset of panoramic videos with more than 9900 annotations. Finally the detailed evaluation of 12 well known and state of the art trackers has been performed for this new dataset.
125	Ohodnocení okolí bodů v obraze / Parametrization of Image Point Neighborhood Zamazal, Zdeněk January 2011 (has links) This master thesis is focused on parametrization of image point neighborhood. Some methods for point localization and point descriptors are described and summarized. Gabor filter is described in detail. The practical part of thesis is chiefly concerned with particle filter tracking system. The weight of each particle is determined by the Gabor filter.
126	Rozšířená realita v reklamě / Augmented Reality for Commercials Angelov, Michael January 2011 (has links) Master's thesis presents a possible application of augmented reality in domain of commerci- als. It presents designed architecture of a mobile application that is able to detect and track specific objects (e.g. printed commercials, logos) in mobile';s phone camera in real time and provide some extra information about the detected object towards the user. Thesis also provides a review of contemporary used techniques in object recognition, object tracking and image retrieval from image databases.
127	Représenter pour suivre : exploitation de représentations parcimonieuses pour le suivi multi-objets / Representations for tracking : exploiting sparse representations for multi-object tracking Fagot-Bouquet, Loïc Pierre 20 March 2017 (has links) Le suivi multi-objets, malgré les avancées récentes en détection d'objets, présente encore plusieurs difficultés spécifiques et reste ainsi une problématique difficile. Au cours de cette thèse nous proposons d'examiner l'emploi de représentations parcimonieuses au sein de méthodes de suivi multi-objets, dans le but d'améliorer les performances de ces dernières. La première contribution de cette thèse consiste à employer des représentations parcimonieuses collaboratives dans un système de suivi en ligne pour distinguer au mieux les cibles. Des représentations parcimonieuses structurées sont ensuite considérées pour s'adapter plus spécifiquement aux approches de suivi à fenêtre glissante. Une dernière contribution consiste à employer des dictionnaires denses, prenant en considération un grand nombre de positions non détectées au sein des images, de manière à être plus robuste vis-à-vis de la performance du détecteur d'objets employé. / Despite recent advances in object detection, multi-object tracking still raises some specific issues and therefore remains a challenging problem. In this thesis, we propose to investigate the use of sparse representations within multi-object tracking approaches in order to gain in performances. The first contribution of this thesis consists in designing an online tracking approach that takes advantage of collaborative sparse representations to better distinguish between the targets. Then, structured sparse representations are considered in order to be more suited to traking approaches based on a sliding window. In order to rely less on the object detector quality, we consider for the last contribution of this thesis to use dense dictionaries that are taking into account a large number of undetected locations inside each frame. Suivi visuel multi-objets Suivi par détection Représentations parcimonieuses Multi-object tracking Tracking by detection Sparse representations
128	Bayesian Nonparametric Modeling and Inference for Multiple Object Tracking January 2019 (has links) abstract: The problem of multiple object tracking seeks to jointly estimate the time-varying cardinality and trajectory of each object. There are numerous challenges that are encountered in tracking multiple objects including a time-varying number of measurements, under varying constraints, and environmental conditions. In this thesis, the proposed statistical methods integrate the use of physical-based models with Bayesian nonparametric methods to address the main challenges in a tracking problem. In particular, Bayesian nonparametric methods are exploited to efficiently and robustly infer object identity and learn time-dependent cardinality; together with Bayesian inference methods, they are also used to associate measurements to objects and estimate the trajectory of objects. These methods differ from the current methods to the core as the existing methods are mainly based on random finite set theory. The first contribution proposes dependent nonparametric models such as the dependent Dirichlet process and the dependent Pitman-Yor process to capture the inherent time-dependency in the problem at hand. These processes are used as priors for object state distributions to learn dependent information between previous and current time steps. Markov chain Monte Carlo sampling methods exploit the learned information to sample from posterior distributions and update the estimated object parameters. The second contribution proposes a novel, robust, and fast nonparametric approach based on a diffusion process over infinite random trees to infer information on object cardinality and trajectory. This method follows the hierarchy induced by objects entering and leaving a scene and the time-dependency between unknown object parameters. Markov chain Monte Carlo sampling methods integrate the prior distributions over the infinite random trees with time-dependent diffusion processes to update object states. The third contribution develops the use of hierarchical models to form a prior for statistically dependent measurements in a single object tracking setup. Dependency among the sensor measurements provides extra information which is incorporated to achieve the optimal tracking performance. The hierarchical Dirichlet process as a prior provides the required flexibility to do inference. Bayesian tracker is integrated with the hierarchical Dirichlet process prior to accurately estimate the object trajectory. The fourth contribution proposes an approach to model both the multiple dependent objects and multiple dependent measurements. This approach integrates the dependent Dirichlet process modeling over the dependent object with the hierarchical Dirichlet process modeling of the measurements to fully capture the dependency among both object and measurements. Bayesian nonparametric models can successfully associate each measurement to the corresponding object and exploit dependency among them to more accurately infer the trajectory of objects. Markov chain Monte Carlo methods amalgamate the dependent Dirichlet process with the hierarchical Dirichlet process to infer the object identity and object cardinality. Simulations are exploited to demonstrate the improvement in multiple object tracking performance when compared to approaches that are developed based on random finite set theory. / Dissertation/Thesis / Doctoral Dissertation Electrical Engineering 2019 Electrical engineering Statistics Computer science Bayesian Nonparametrics Dependent Dirichlet Process Dependent Pitman-Yor Process Multiple Object Tracking Scalable Bayesian Inference
129	Goal-Aware Robocentric Mapping and Navigation of a Quadrotor Unmanned Aerial Vehicle Biswas, Srijanee 18 June 2019 (has links) No description available. Engineering GPS-denied Navigation Extended Kalman Filter Obstacle Avoidance Nonlinear Observability Analysis Object Tracking Unmanned Aerial Vehicle
130	Automatic object detection and tracking for eye-tracking analysis Cederin, Liv, Bremberg, Ulrika January 2023 (has links) In recent years, eye-tracking technology has gained considerable attention, facilitating analysis of gaze behavior and human visual attention. However, eye-tracking analysis often requires manual annotation on the objects being gazed upon, making quantitative data analysis a difficult and time-consuming process. This thesis explores the area of object detection and object tracking applied on scene camera footage from mobile eye-tracking glasses. We have evaluated the performance of state-of-the-art object detectors and trackers, resulting in an automated pipeline specialized at detecting and tracking objects in scene videos. Motion blur constitutes a significant challenge in moving cameras, complicating tasks such as object detection and tracking. To address this, we explored two approaches. The first involved retraining object detection models on datasets with augmented motion-blurred images, while the second one involved preprocessing the video frames with deblurring techniques. The findings of our research contributes with insights into efficient approaches to optimally detect and track objects in scene camera footage from eye-tracking glasses. Out of the technologies we tested, we found that motion deblurring using DeblurGAN-v2, along with a DINO object detector combined with the StrongSORT tracker, achieved the highest accuracies. Furthermore, we present an annotated dataset consisting of frames from recordings with eye-tracking glasses, that can be utilized for evaluating object detection and tracking performance. Computer Vision Object Detection Object Tracking Eye-Tracking Annotation Deblurring Deep Learning Motion Blur Computer and Information Sciences Data- och informationsvetenskap

Search results