Determination and Improvement of Spatial Resolution obtained by Optical Remote Sensing Systems

Meißner, Henry

29 March 2021

Das Bereitstellen von Parametern bezüglich Auflösungsvermögen und effektiver Auflösung ist ein gut erforschtes Wissenschaftsfeld, dennoch sind noch einige offen Fragen zu klären, wenn eine standardisierte Erhebung angestrebt wird. Zu diesem Zweck ist im Rahmen der vorliegenden Arbeit ein Framework definiert und mathematisch und methodologisch beschrieben worden unter Einbeziehung aller untergeordneten Prozesse. Weiterhin liefert sie einen detaillierten Überblick zu den verwendeten Methoden und Strukturen, um räumliche Auflösung zu messen. Das zuvor definierte Framework wird darüber hinaus genutzt, um alle zugehörigen Probleme bezüglich eines genormten Prozesses zu identifizieren und zu lösen. Der so definierte Prozess ist außerdem Teil der bevorstehenden, neuen Norm: DIN 18740-8. Im Hinblick auf die Norm sind alle Messeinflüsse an den möglichen Stellen quantifiziert worden und an Stellen, wo dies nicht möglich ist, wurden Vorkehrungen definiert, die diese Einflüsse mindern. Darüber hinaus wurde ein zugehöriges Softwaretool entwickelt, das ebenfalls die neue Norm unterstützt. Als weiterer Schwerpunkt dieser Arbeit wurde ein Verfahren zur Verbesserung der räumlichen Auflösung entwickelt und bewertet. Das zugehörige Softwaretool kombiniert dabei verschiedene Super-Resolution-Ansätze unter Einbeziehung zusätzlicher Kenntnis über die Bildqualität. Der neuartige Super-Resolution-Ansatz verbessert die räumliche Auflösung von Luftbildern und True-Ortho-Mosaiken indem er ein Set von niedrig aufgelösten Rohbildern, deren optimierter, äußerer und innerer Orientierung und die abgeleitete 3D-Oberfläche als Eingangsdaten akzeptiert. Anschließend werden ein oder mehrere hochaufgelöste Bilder als hybride Kombination von klassischen Super-Resolution-Methoden und De-Mosaikierung berechnet, unter Berücksichtigung der photogrammetrischen Projektionen auf die 3D-Oberfläche. Dabei werden Limitierungen der Bildkoregistrierung mit üblich verwendeten Optical-Flow-Ansätzen überwunden. / Although acquisition of resolving power and effective spatial resolution is a well-studied field of research, there are still several scientific questions to be answered when it comes to a standardized determination. Therefore, this thesis provides a description of a framework for the imaging process of remote sensing sensors mathematically and methodologically including imaging components and subsequent processes. Furthermore, a detailed review for different structures and methods to measure spatial resolution is included. Aforementioned framework then is utilized to identify related issues to a standardized process obtaining spatial resolution parameters as an image quality criterion to support an upcoming standard DIN 18740-8. With respect to define the norm-procedure every measurement influence is quantified where possible and in other cases arrangements are specified to diminish their influence. Moreover, the development of an associated software measurement tool has been accomplished as part of this thesis, which also supports the norm for aerial image quality, spatial resolution in particular. As part of a further objective of this thesis, a super-resolution approach to improve spatial resolution of aerial images has been developed and evaluated. The related software tool is able to combine different super-resolution techniques and includes known image quality parameter in subsequent calculations. The novel super-resolution approach improves spatial resolution of aerial imagery and true ortho-mosaics by taking a set of multiple low-resolved raw images (color filter array), their optimized exterior and interior orientation parameters and the derived 3D-surface as input. Then, one or more super-resolved images are calculated as a hybrid of classic super-resolution method and demosaicing while considering photogrammetric back-projections onto the 3D-surface. Thereby, limitations of image co-registration with commonly used optical flow approaches can be neglected.

räumliche Auflösung

Siemensstern

DIN

Super-Resolution

spatial resolution

Siemens-star

DIN

super-resolution

ST 330

ddc:000

Spatial-Spectral Feature Extraction on Pansharpened Hyperspectral Imagery

Kaufman, Jason R.

January 2014

No description available.

Remote Sensing

Electrical Engineering

hyperspectral imagery

high spatial resolution imagery

spatial-spectral feature extraction

image resolution enhancement

pansharpening

image fusion

material detection and identification

Resolution of lateral acoustic space assessed by electroencephalography and psychoacoustics

Bennemann, Jan, Freigang, Claudia, Schröger, Erich, Rübsamen, Rudolf, Richter, Nicole

01 August 2022

The encoding of auditory spatial acuity (measured as the precision to distinguish between two spatially distinct stimuli) by neural circuits in both auditory cortices is a matter of ongoing research. Here, the event-related potential (ERP) mismatch negativity (MMN), a sensitive indicator of preattentive auditory change detection, was used to tap into the underlying mechanism of cortical representation of auditory spatial information. We characterized the MMN response affected by the degree of spatial deviance in lateral acoustic space using a passive oddball paradigm. Two stimulation conditions (SCs)—specifically focusing on the investigation of the mid- and far-lateral acoustic space—were considered: (1) 65° left standard position with deviant positions at 70, 75, and 80°; and (2) 95° left standard position with deviant positions at 90, 85, and 80°. Additionally, behavioral data on the minimum audible angle (MAA) were acquired for the respective standard positions (65, 95° left) to quantify spatial discrimination in separating distinct sound sources. The two measurements disclosed the linkage between the (preattentive) MMN response and the (attentive) behavioral threshold. At 65° spatial deviations as small as 5° reliably elicited MMNs. Thereby, the MMN amplitudes monotonously increased as a function of spatial deviation. At 95°, spatial deviations of 15° were necessary to elicit a valid MMN. The behavioral data, however, yielded no difference in mean MAA thresholds for position 65 and 95°. The different effects of laterality on MMN responses and MAA thresholds suggest a role of spatial selective attention mechanisms particularly relevant in active discrimination of neighboring sound sources, especially in the lateral acoustic space.

info:eu-repo/classification/ddc/150

ddc:150

Technological Innovations for Mid-Atlantic Cropping Systems

Swoish, Michael Joseph

05 February 2020

Greater projected demand for food, fuel, and fiber will require substantial increases in global agricultural production over the next three decades. Climate change is also forecasted to make weather events more extreme and variable. Efficiency will become more important as demand for food products increases and the availability of fertilizer and land decreases. Technology may be of paramount importance for pushing the boundaries of production while remaining sustainable for generations to come. The first chapter of this dissertation investigated the importance of rate and timing of the plant growth regulator trinexapac-ethyl to malting barley in Virginia. Plant growth regulators can help plants remain upright during strong winds, thereby preserving grain quality and yield. However, this study demonstrated that risks of plant injury also exist. Application should be restricted to fields with greater risk of lodging and made only after the barley crop has broken dormancy and a substantial increase in air temperature is not forecasted in the week following application. Chapter two compared the efficacy of eight vegetation indices calculated from three satellites (Landsat 8, Sentinel 2, and Planet) for estimating cover crop biomass. Cover crops can have beneficial effects on agricultural land as well as groundwater and surface water, but only when adequate biomass is established to reduce erosion and nutrient leaching. Satellite imagery was able to estimate multi-species cover crop biomass more accurately than field-based sensors, although the most accurate vegetation index was dependent upon which satellite was being tested. Chapter three investigated the potential of Arabidopsis thaliana ipk1-, a loss-of-function mutant which exhibits decreased growth at elevated phosphorus concentration, for serving as in indicator of plant available phosphorus. An indicator crop could provide greater spatial resolution compared to soil testing, as well as represent plant available nutrients as opposed to chemically extracted nutrient estimations. Plant response exhibited a quadratic relationship with media P concentration in the range of fertilizer decision making for maize, providing valuable insight for potential yield response in agricultural fields below 'very high' phosphorus concentration. / Doctor of Philosophy / Climate change, increased demand for locally sourced ingredients, and elevated pressure for environmentally responsible practices will make meeting the growing demand for food difficult for farmers to achieve over the next few decades. Similar to many other industries, implementation of advanced technology may be necessary to keep up with agricultural demand. Plant growth regulators are one such technology which when applied to plants can cause them to remain short, decreasing the chance of blowing over during windstorms. However, chapter one of this dissertation concluded that risks of plant injury also exist when applying plant growth regulator on malting barley (for brewing or distilling). Application should be restricted to fields with greater risk of wind damage (e.g. taller barley) and made only after the barley crop begins spring growth and a decrease in air temperature is not forecasted in the week following application. Chapter two compared eight spectral vegetation indices across three satellites with different image resolution for their ability to estimate cover crop biomass. Cover crops protect groundwater and surface water quality, but only when adequate growth is achieved. Satellite imagery was able to estimate multi-species cover crop biomass more accurately than field-based sensors, although the most accurate vegetation index was dependent upon which satellite was being tested. Chapter three investigated the potential of Arabidopsis thaliana ipk1-, a loss-of-function mutant which exhibits decreased growth at elevated phosphorus concentration, as in indicator of plant available phosphorus in soil. An indicator crop could help determine which areas of a field are likely to have increased crop yield if fertilized and which are not. The mutant tested could be useful as an indicator crop given its response to phosphorus concentration, warranting further research with other plant species more appropriate for field use.

malt barley

plant growth regulator

trinexapac-ethyl

remote sensing

satellite imagery

spatial resolution

vegetation indices

cover crop biomass

indicator cop

phosphorus sensitive mutant

Arabidopsis thaliana ipk1-

Détection des bâtiments à partir des images multispectrales à très haute résolution spatiale par la transformation Hit-or-Miss

Stankov, Katia

January 2014

Résumé : La détection des bâtiments dans les images à très haute résolution spatiale (THRS) a plusieurs applications pratiques et représente un domaine de recherche scientifique intensive ces dernières années. Elle fait face à la complexité du milieu urbain et aux spécificités des images provenant des différents capteurs. La performance des méthodes existantes pour l’extraction des bâtiments n’est pas encore suffisante pour qu’elles soient généralisées à grande échelle (différents types de tissus urbains et capteurs). Les opérateurs morphologiques se sont montrés efficaces pour la détection des bâtiments dans les images panchromatiques (images en niveaux de gris) à très haute résolution spectrale (THRS). L’information spectrale issue des images multispectrales est jugée nécessaire pour l’amélioration de leur performance. L’extension des opérateurs morphologiques pour les images multispectrales exige l’adoption d’une stratégie qui permet le traitement des pixels sous forme de vecteurs, dont les composantes sont les valeurs dans les différentes bandes spectrales. Ce travail de recherche vise l’application de la transformation morphologique dite Hit-or-Miss (HMT) à des images multispectrales à THRS, afin de détecter des bâtiments. Pour répondre à la problématique de l’extension des opérateurs morphologiques pour les images multispectrales, nous proposons deux solutions. Comme une première solution nous avons généré des images en niveaux de gris à partir les bandes multispectrales. Dans ces nouvelles images les bâtiments potentiels sont rehaussés par rapport à l’arrière-plan. La HMT en niveaux de gris est alors appliquée à ces images afin de détecter les bâtiments. Pour rehausser les bâtiments nous avons proposé un nouvel indice, que nous avons appelé Spectral Similarity Ratio (SSR). Pour éviter de définir des configurations, des ensembles d’éléments structurants (ES), nécessaires pour l’application de la HMT, au préalable, nous avons utilisé l’érosion et la dilatation floues et poursuivi la réponse des pixels aux différentes valeurs des ES. La méthode est testée sur des extraits d’images représentant des quartiers de type résidentiel. Le taux moyen de reconnaissance obtenu pour les deux capteurs Ikonos et GeoEye est de 85 % et de 80 %, respectivement. Le taux moyen de bonne identification, quant à lui, est de 85 % et 84 % pour les images Ikonos et GeoEye, respectivement. Après certaines améliorations, la méthode a été appliquée sur des larges scènes Ikonos et WorldView-2, couvrant différents tissus urbains. Le taux moyen des bâtiments reconnus est de 82 %. Pour sa part, le taux de bonne identification est de 81 %. Dans la deuxième solution, nous adoptons une stratégie vectorielle pour appliquer la HMT directement sur les images multispectrales. La taille des ES de cette transformation morphologique est définie en utilisant la transformation dite chapeau haut-de-forme par reconstruction. Une étape de post-traitement inclut le filtrage de la végétation par l’indice de la végétation NDVI et la validation de la localisation des bâtiments par l’information d’ombre. La méthode est appliquée sur un espace urbain de type résidentiel. Des extraits d’images provenant des capteurs satellitaires Ikonos, GeoEye et WorldView 2 ont été traités. Le taux des bâtiments reconnus est relativement élevé pour tous les extraits - entre 85 % et 97 %. Le taux de bonne identification démontre des résultats entre 74 % et 88 %. Les résultats obtenus nous permettent de conclure que les objectifs de ce travail de recherche, à savoir, la proposition d’une technique pour l’estimation de la similarité spectrale entre les pixels formant le toit d’un bâtiment, l’intégration de l’information multispectrale dans la HMT dans le but de détecter les bâtiments, et la proposition d’une technique qui permet la définition semi-automatique des configurations bâtiment/voisinage dans les images multispectrales, ont été atteints. // Abstract : Detection of buildings in very high spatial resolution images (THRS) has various practical applications and is recently a subject of intensive scientific research. It faces the complexity of the urban environment and the variety of image characteristics depending on the type of the sensor. The performance of existing building extraction methods is not yet sufficient to be generalized to a large scale (different urban patterns and sensors). Morphological operators have been proven effective for the detection of buildings in panchromatic (greyscale) very high spectral resolution (VHSR) images. The spectral information of multispectral images is jugged efficient to improve the results of the detection. The extension of morphological operators to multispectral images is not straightforward. As pixels of multispectral images are pixels vectors the components of which are the intensity values in the different bands, a strategy to order vectors must be adopted. This research thesis focuses on the application of the morphological transformation called Hit-or-Miss (HMT) on multispectral VHSR images in order to detect buildings. To address the issue of the extension of morphological operators to multispectral images we have proposed two solutions. The first one employs generation of greyscale images from multispectral bands, where potential buildings are enhanced. The grayscale HMT is then applied to these images in order to detect buildings. To enhance potential building locations we have proposed the use of Spectral Similarity Ratio (SSR). To avoid the need to set multiple configurations of structuring elements (SE) necessary for the implementation of the HMT, we have used fuzzy erosion and fuzzy dilation and examined the pixel response to different values of SE. The method has been tested on image subsets taken over residential areas. The average rate of recognition for the two sensors, Ikonos and GeoEye, is 85% and 80%, respectively. The average rate of correct identification is 85% and 84%, for Ikonos and GeoEye subsets, respectively. Having made some improvements, we then applied the method to large scenes from Ikonos and WorldView-2 images covering different urban patterns. The average rate of recognized buildings is 82%. The rate of correct identification is 81%. As a second solution, we have proposed a new vector based strategy which allows the multispectral information to be integrated into the percent occupancy HMT (POHMT). Thus, the POHMT has been directly applied on multispectral images. The parameters for the POHMT have been defined using the morphological transformation dubbed top hat by reconstruction. A post-processing step included filtering the vegetation and validating building locations by proximity to shadow. The method has been applied to urban residential areas. Image subsets from Ikonos, GeoEye and WorldView2 have been processed. The rate of recognized buildings is relatively high for all subsets - between 85% and 97%. The rate of correct identification is between 74 % and 88 %. The results allow us to conclude that the objectives of this research, namely, suggesting a technique for estimating the spectral similarity between the pixels forming the roof of a building, the integration of multispectral information in the HMT in order to detect buildings and the proposition of a semiautomatic technique for the definition of the configurations building/neighbourhood in multispectral images, have been achieved.

Détection des bâtiments

Transformation Hit-or-Miss

Building detection

Multivariate mathematical morphology

Hit-or-Miss transform

Télédétection et épidémiologie en zone urbaine : de l'extraction de bâtiments à partir d'images satellite à très haute résolution à l'estimation de taux d'incidence / Remote sensing and epidemiology in urban zone : from extraction of buildings from very high resolution satellite images to the estimation of incidence rates

Upegui Cardona, Erika

08 October 2012

En épidémiologie, une connaissance précise des populations à risque constitue un pré requis aucalcul d'indicateurs de l’état de santé d’une communauté (taux d'incidence). Néanmoins, les effectifsde population peuvent être indisponibles, ou peu fiables, ou insuffisamment détaillés pour un usageépidémiologique.L'objectif principal de ce travail est d'obtenir des taux d'incidence en l'absence de donnéesdémographiques, à une échelle spatiale infra-communale. Les objectifs secondaires sont d'estimerles populations humaines par l'intermédiaire de données satellitaires à très haute résolution spatiale(THRS), d'évaluer l'apport de ces données THRS par rapport aux données à haute résolution spatiale(Landsat) dans un même cadre urbain (Besançon), et de mettre au point une méthodologie simple etrobuste, pour garantir son exportabilité à d'autres zones.Nous proposons une approche en trois étapes, fondée sur la corrélation existant entre la densité depopulation et la morphologie urbaine. La première étape consiste à extraire des bâtiments à partirdes données télédétection THRS. Ces bâtiments sont utilisés dans la deuxième étape pour modéliserla population. A leur tour, ces populations servent de dénominateur, lors de la dernière étape, pourcalculer des taux d’incidence (cancers). Des données de référence sont utilisées à chaque étape pourévaluer les performances de notre méthodologie.Les résultats obtenus soulignent le potentiel de la télédétection pour mesurer l'état de santé d'unecommunauté (sous la forme de taux bruts d’incidence) à une échelle géographique fine. Ces tauxd'incidence estimés peuvent alors constituer des éléments de décision pour mieux adapter l'offre desoins aux besoin de santé, même en l'absence de données démographiques / In epidemiology, a precise knowledge of populations at risk is a prerequisite for calculating state ofhealth indicators of a community (incidence rates). The population data, however, may beunavailable, unreliable, or insufficiently detailed for epidemiological use.The main objective of this research is to estimate incidence rates, in cases of absence of demographicdata, at an infra-communal scale. The secondary objectives are to estimate the human populationthrough satellite data at very high spatial resolution (VHSR), to assess the contribution of this data(VHSR) compared with high spatial resolution data (Landsat) in a same urban framework (Besançon),and to develop a simple and robust methodology to ensure its exportability to other areas.We proposed a three-step approach based on the correlation between population density and urbanmorphology. The first step is to extract buildings from VHSR imagery data. These buildings are thenused in the second step to model the population data. Finally, this population data is used as thedenominator to calculate incidence rates (cancers). Reference data are used at each step to assessthe performance of our methodology.The results obtained highlight the potential of remote sensing to measure the state of health of acommunity (in the form of crude incidence rates) at a fine geographical scale. These estimatedincidence rates can be utilized as elements of decision to adapt better customized healthcare withrespect to the health needs of a given community, even in the absence of demographic data

Télédétection

Très haute résolution spatiale

Bâtiments

Classification d’images

Distribution de population

Épidémiologie

Taux d’incidence

Interdisciplinarité

Remote sensing

Very high spatial resolution

Buildings

Imagery classification

Population allocation

Epidemiology

Incidence rates

Interdisciplinarity

Classification d'images RSO polarimétriques à haute résolution spatiale sur site urbain / High – Resolution Polarimetric SAR image classification on urban areas

Soheili Majd, Maryam

28 April 2014

Notre recherche vise à évaluer l’apport d’une seule image polarimétrique RSO (Radar à Synthèse d’Ouverture) à haute résolution spatiale pour classifier les surfaces urbaines. Pour cela, nous définissons plusieurs types de toits, de sols et d’objets.Dans un premier temps, nous proposons un inventaire d’attributs statistiques, texturaux et polarimétriques pouvant être utilisés dans un algorithme de classification. Nous étudions les lois statistiques des descripteurs et montrons que la distribution de Fisher est bien adaptée pour la plupart d’entre eux. Dans un second temps, plusieurs algorithmes de classification vectorielle supervisée sont testés et comparés, notamment la classification par maximum de vraisemblance basée sur une distribution gaussienne, ou celle basée sur la distribution de Wishart comme modèle statistique de la matrice de cohérence polarimétrique, ou encore l’approche SVM. Nous proposons alors une variante de l’algorithme par maximum de vraisemblance basée sur une distribution de Fisher, dont nous avons étudié l’adéquation avec l’ensemble de nos attributs. Nous obtenons une nette amélioration de nos résultats avec ce nouvel algorithme mais une limitation apparaît pour reconnaître certains toits. Ainsi, la forme des bâtiments rectangulaires est reconnue par opérations morphologiques à partir de l’image d’amplitude radar. Cette information spatiale est introduite dans le processus de classification comme contrainte. Nous montrons tout l’intérêt de cette information puisqu’elle empêche la confusion de classification entre pixels situés sur des toits plats et des pixels d’arbre. De plus, nous proposons une méthode de sélection des attributs les plus pertinents pour la classification, basée sur l’information mutuelle et une recherche par algorithme génétique. Nos expériences sont menées sur une image polarimétrique avec un pixel de 35 cm, acquise en 2006 par le capteur aéroporté RAMSES de l’ONERA. / In this research, our aim is to assess the potential of a one single look high spatial resolution polarimetric radar image for the classification of urban areas. For that purpose, we concentrate on classes corresponding to different kinds of roofs, objects and ground surfaces.At first, we propose a uni-variate statistical analysis of polarimetric and texture attributes, that can be used in a classification algorithm. We perform a statistical analysis of descriptors and show that the Fisher distribution is suitable for most of them. We then propose a modification of the maximum likelihood algorithm based on a Fisher distribution; we train it with all of our attributes. We obtain a significant improvement in our results with the new algorithm, but a limitation appears to recognize some roofs.Then, the shape of rectangular buildings is recognized by morphological operations from the image of radar amplitude. This spatial information is introduced in a Fisher-based classification process as a constraint term and we show that classification results are improved. In particular, it overcomes classification ambiguities between flat roof pixels and tree pixels.In a second step, some well-known algorithms for supervised classification are used. We deal with Maximum Likelihood based on complex Gaussian distribution (uni-variate) and multivariate Complex Gaussian using coherency matrix. Meanwhile, the support vector machine, as a nonparametric method, is used as classification algorithm. Moreover, a feature selection based on Genetic Algorithm using Mutual Information (GA-MI) is adapted to introduce optimal subset to classification method. To illustrate the efficiency of subset selection based on GA-MI, we perform a comparison experiment of optimal subset with different target decompositions based on different scattering mechanisms, including the Pauli, Krogager, Freeman, Yamaguchi, Barnes, Holm, Huynen and the Cloude decompositions. Our experiments are based on an image of a suburban area, acquired by the airborne RAMSES SAR sensor of ONERA, in 2006, with a spatial spacing of 35 cm. The results highlight the potential of such data to discriminate some urban land cover types.

Zone urbaine

Classification d'images

Maximum de vraisemblance

Fisher

Haute résolution spatiale

Polarimétrie radar

Algorithme génétique

Information mutuelle

Urban area

Image classification

Maximum Likelihood

Fisher

High spatial resolution

Polarimetric radar

Genetic Algorithm

Mutual Information

551

Experimental studies in jet flows and zero pressure-gradient turbulent boundary layers

Örlü, Ramis

January 2009

This thesis deals with the description and development of two classical turbulent shear flows, namely free jet and flat plate turbulent boundary layer flows. In both cases new experimental data has been obtained and in the latter case comparisons are also made with data obtained from data bases, both of experimental and numerical origin. The jet flow studies comprise three parts, made in three different experimental facilities, each dealing with a specific aspect of jet flows. The first part is devoted to the effect of swirl on the mixing characteristics of a passive scalar in the near-field region of a moderately swirling jet. Instantaneous streamwise and azimuthal velocity components as well as the temperature were simultaneously accessed by means of combined X-wire and cold-wire anemometry. The results indicate a modification of the turbulence structures to that effect that the swirling jet spreads, mixes and evolves faster compared to its non-swirling counterpart. The high correlation between streamwise velocity and temperature fluctuations as well as the streamwise passive scalar flux are even more enhanced due to the addition of swirl, which in turn shortens the distance and hence time needed to mix the jet with the ambient air. The second jet flow part was set out to test the hypothesis put forward by Talamelli & Gavarini (Flow, Turbul. & Combust. 76), who proposed that the wake behind a separation wall between two streams of a coaxial jet creates the condition for an absolute instability. The experiments confirm the hypothesis and show that the instability, by means of the induced vortex shedding, provides a continuous forcing mechanism for the control of the flow field. The potential of this passive mechanism as an easy, effective and practical way to control the near-field of interacting shear layers as well as its effect towards increased turbulence activity has been shown. The third part of the jet flow studies deals with the hypothesis that so called oblique transition may play a role in the breakdown to turbulence for an axisymmetric jet.For wall bounded flows oblique transition gives rise to steady streamwise streaks that break down to turbulence, as for instance documented by Elofsson & Alfredsson (J. Fluid Mech. 358). The scenario of oblique transition has so far not been considered for jet flows and the aim was to study the effect of two oblique modes on the transition scenario as well as on the flow dynamics. For certain frequencies the turbulence intensity was surprisingly found to be reduced, however it was not possible to detect the presence of streamwise streaks. This aspect must be furher investigated in the future in order to understand the connection between the turbulence reduction and the azimuthal forcing. The boundary layer part of the thesis is also threefold, and uses both new data as well as data from various data bases to investigate the effect of certain limitations of hot-wire measurements near the wall on the mean velocity but also on the fluctuating streamwise velocity component. In the first part a new set of experimental data from a zero pressure-gradient turbulent boundary layer, supplemented by direct and independent skin friction measurements, are presented. The Reynolds number range of the data is between 2300 and 18700 when based on the free stream velocity and the momentum loss thickness. Data both for the mean and fluctuating streamwise velocity component are presented. The data are validated against the composite profile by Chauhan et al. (Fluid Dyn. Res. 41) and are found to fulfil recently established equilibrium criteria. The problem of accurately locating the wall position of a hot-wire probe and the errors this can result in is thoroughly discussed in part 2 of the boundary layer study. It is shown that the expanded law of the wall to forth and fifth order with calibration constants determined from recent high Reynolds number DNS can be used to fix the wall position to an accuracy of 0.1 and 0.25 l_ * (l_* is the viscous length scale) when accurately determined measurements reaching y+=5 and 10, respectively, are available. In the absence of data below the above given limits, commonly employed analytical functions and their log law constants, have been found to affect the the determination of wall position to a high degree. It has been shown, that near-wall measurements below y+=10 or preferable 5 are essential in order to ensure a correctly measured or deduced absolute wall position. A  number of peculiarities in concurrent wall-bounded turbulent flow studies, was found to be associated with a erroneously deduced wall position. The effect of poor spatial resolution using hot-wire anemometry on the measurements of the streamwise velocity is dealt with in the last part. The viscous scaled hot-wire length, L+, has been found to exert a strong impact on the probability density distribution (pdf) of the streamwise velocity, and hence its higher order moments, over the entire buffer region and also the lower region of the log region. For varying Reynolds numbers spatial resolution effects act against the trend imposed by the Reynolds number. A systematic reduction of the mean velocity with increasing L+ over the entire classical buffer region and beyond has been found. A reduction of around 0.3 uƬ, where uƬ is the friction velocity, has been deduced for L+=60 compared to L+=15. Neglecting this effect can lead to a seemingly Reynolds number dependent  buffer or log region. This should be taken into consideration, for instance, in the debate, regarding the prevailing influence of viscosity above the buffer region at high Reynolds numbers. We also conclude that the debate concerning the universality of the pdf within the overlap region has been artificially complicated due to the ignorance of spatial resolution effects beyond the classical buffer region on the velocity fluctuations. / QC 20100820

Axisymmetric jet

swirling jet

coaxial jet

heated jet

wall-bounded turbulent flows

overlap region

passive scalar mixing

hot-wire anemometry

spatial resolution.

Fluid mechanics

Strömningsmekanik

D??tection des b??timents ?? partir des images multispectrales ?? tr??s haute r??solution spatiale par la transformation Hit-or-Miss

Stankov, Katia

January 2014

R??sum?? : La d??tection des b??timents dans les images ?? tr??s haute r??solution spatiale (THRS) a plusieurs applications pratiques et repr??sente un domaine de recherche scientifique intensive ces derni??res ann??es. Elle fait face ?? la complexit?? du milieu urbain et aux sp??cificit??s des images provenant des diff??rents capteurs. La performance des m??thodes existantes pour l???extraction des b??timents n???est pas encore suffisante pour qu???elles soient g??n??ralis??es ?? grande ??chelle (diff??rents types de tissus urbains et capteurs). Les op??rateurs morphologiques se sont montr??s efficaces pour la d??tection des b??timents dans les images panchromatiques (images en niveaux de gris) ?? tr??s haute r??solution spectrale (THRS). L???information spectrale issue des images multispectrales est jug??e n??cessaire pour l???am??lioration de leur performance. L???extension des op??rateurs morphologiques pour les images multispectrales exige l???adoption d???une strat??gie qui permet le traitement des pixels sous forme de vecteurs, dont les composantes sont les valeurs dans les diff??rentes bandes spectrales. Ce travail de recherche vise l???application de la transformation morphologique dite Hit-or-Miss (HMT) ?? des images multispectrales ?? THRS, afin de d??tecter des b??timents. Pour r??pondre ?? la probl??matique de l???extension des op??rateurs morphologiques pour les images multispectrales, nous proposons deux solutions. Comme une premi??re solution nous avons g??n??r?? des images en niveaux de gris ?? partir les bandes multispectrales. Dans ces nouvelles images les b??timents potentiels sont rehauss??s par rapport ?? l???arri??re-plan. La HMT en niveaux de gris est alors appliqu??e ?? ces images afin de d??tecter les b??timents. Pour rehausser les b??timents nous avons propos?? un nouvel indice, que nous avons appel?? Spectral Similarity Ratio (SSR). Pour ??viter de d??finir des configurations, des ensembles d?????l??ments structurants (ES), n??cessaires pour l???application de la HMT, au pr??alable, nous avons utilis?? l?????rosion et la dilatation floues et poursuivi la r??ponse des pixels aux diff??rentes valeurs des ES. La m??thode est test??e sur des extraits d???images repr??sentant des quartiers de type r??sidentiel. Le taux moyen de reconnaissance obtenu pour les deux capteurs Ikonos et GeoEye est de 85 % et de 80 %, respectivement. Le taux moyen de bonne identification, quant ?? lui, est de 85 % et 84 % pour les images Ikonos et GeoEye, respectivement. Apr??s certaines am??liorations, la m??thode a ??t?? appliqu??e sur des larges sc??nes Ikonos et WorldView-2, couvrant diff??rents tissus urbains. Le taux moyen des b??timents reconnus est de 82 %. Pour sa part, le taux de bonne identification est de 81 %. Dans la deuxi??me solution, nous adoptons une strat??gie vectorielle pour appliquer la HMT directement sur les images multispectrales. La taille des ES de cette transformation morphologique est d??finie en utilisant la transformation dite chapeau haut-de-forme par reconstruction. Une ??tape de post-traitement inclut le filtrage de la v??g??tation par l???indice de la v??g??tation NDVI et la validation de la localisation des b??timents par l???information d???ombre. La m??thode est appliqu??e sur un espace urbain de type r??sidentiel. Des extraits d???images provenant des capteurs satellitaires Ikonos, GeoEye et WorldView 2 ont ??t?? trait??s. Le taux des b??timents reconnus est relativement ??lev?? pour tous les extraits - entre 85 % et 97 %. Le taux de bonne identification d??montre des r??sultats entre 74 % et 88 %. Les r??sultats obtenus nous permettent de conclure que les objectifs de ce travail de recherche, ?? savoir, la proposition d???une technique pour l???estimation de la similarit?? spectrale entre les pixels formant le toit d???un b??timent, l???int??gration de l???information multispectrale dans la HMT dans le but de d??tecter les b??timents, et la proposition d???une technique qui permet la d??finition semi-automatique des configurations b??timent/voisinage dans les images multispectrales, ont ??t?? atteints. // Abstract : Detection of buildings in very high spatial resolution images (THRS) has various practical applications and is recently a subject of intensive scientific research. It faces the complexity of the urban environment and the variety of image characteristics depending on the type of the sensor. The performance of existing building extraction methods is not yet sufficient to be generalized to a large scale (different urban patterns and sensors). Morphological operators have been proven effective for the detection of buildings in panchromatic (greyscale) very high spectral resolution (VHSR) images. The spectral information of multispectral images is jugged efficient to improve the results of the detection. The extension of morphological operators to multispectral images is not straightforward. As pixels of multispectral images are pixels vectors the components of which are the intensity values in the different bands, a strategy to order vectors must be adopted. This research thesis focuses on the application of the morphological transformation called Hit-or-Miss (HMT) on multispectral VHSR images in order to detect buildings. To address the issue of the extension of morphological operators to multispectral images we have proposed two solutions. The first one employs generation of greyscale images from multispectral bands, where potential buildings are enhanced. The grayscale HMT is then applied to these images in order to detect buildings. To enhance potential building locations we have proposed the use of Spectral Similarity Ratio (SSR). To avoid the need to set multiple configurations of structuring elements (SE) necessary for the implementation of the HMT, we have used fuzzy erosion and fuzzy dilation and examined the pixel response to different values of SE. The method has been tested on image subsets taken over residential areas. The average rate of recognition for the two sensors, Ikonos and GeoEye, is 85% and 80%, respectively. The average rate of correct identification is 85% and 84%, for Ikonos and GeoEye subsets, respectively. Having made some improvements, we then applied the method to large scenes from Ikonos and WorldView-2 images covering different urban patterns. The average rate of recognized buildings is 82%. The rate of correct identification is 81%. As a second solution, we have proposed a new vector based strategy which allows the multispectral information to be integrated into the percent occupancy HMT (POHMT). Thus, the POHMT has been directly applied on multispectral images. The parameters for the POHMT have been defined using the morphological transformation dubbed top hat by reconstruction. A post-processing step included filtering the vegetation and validating building locations by proximity to shadow. The method has been applied to urban residential areas. Image subsets from Ikonos, GeoEye and WorldView2 have been processed. The rate of recognized buildings is relatively high for all subsets - between 85% and 97%. The rate of correct identification is between 74 % and 88 %. The results allow us to conclude that the objectives of this research, namely, suggesting a technique for estimating the spectral similarity between the pixels forming the roof of a building, the integration of multispectral information in the HMT in order to detect buildings and the proposition of a semiautomatic technique for the definition of the configurations building/neighbourhood in multispectral images, have been achieved.

D??tection des b??timents

Transformation Hit-or-Miss

Building detection

Multivariate mathematical morphology

Hit-or-Miss transform

Design and Evaluation of Dual-ended Detectors for PET Mammography

Cuddy, Sarah Grace

06 December 2011

Current positron emission mammography (PEM) depth of interaction (DOI) enabling detectors have low scintillator to photodetector encoding ratios, RE causing high system complexity and cost. The modularized dual-ended readout block (DERB) detector combines the Anger logic block detector with dual-ended readout to increase RE while measuring DOI. To investigate the trade-off between RE and spatial resolution, scalable DERB detectors with varying RE and light guide thickness were modelled with Monte- Carlo. Simulation showed RE can increase up to six-fold compared to the dual-ended readout design without significantly degrading spatial resolution. Experimental characterization of a RE = 9 : 8 DERB detector was found to achieve super-resolution <0.5 mm for resolving crystal indices, DOI resolution of ~5 mm FWHM, and mean energy resolution of 20% without recovering photons lost to neighbouring detector modules. The model was validated by agreement of simulation results adjusted for detector quantum efficiency with experimental results.

PET

Positron Emission Tomography

Positron Emission Mammography

Scintillators

Arrays

Block Detector

Photonics

Pixel

Spatial Resolution

Dual-ended readout

Depth of interaction

DOI

Monte Carlo

DETECT2000

Gamma Detector

Detector design

0760

0756