Ecology and conservation of Neotropical-Nearctic migratory birds and mixed-species flocks in the Andes

Colorado, Gabriel J.

07 January 2011

No description available.

Biology

Conservation

Ecology

Environmental Science

Macroecology

Zoology

Neotropical-Nearctic migratory birds

mixed-species birds flocks

Andes

community

conservation

assembly rules

null models

shade coffee

silvopasture

body condition

Colombia

The morpho-phonological properties of anaphoric constructions in Northern Sotho

Kgwadi, Dimakatso Charity.

January 2022

Thesis (M.A. (Translation Studies and Linguistics)) -- University of Limpopo, 2022 / The aim of this study was to examine the morpho-phonological properties of the anaphoric constructions in Northern Sotho using Binding Theory. This study adopted the qualitative research method, where participant observation was used to collect data. The study employed Textual Analysis to analyse the data. The study identified reflexive and reciprocal data that constitute anaphors in Northern Sotho. The study’s findings indicate that there are two types of anaphors, namely: reciprocals and reflexives. In Northern Sotho, anaphors are in the form of verbs. The basic structure of the reciprocal is the root verb, the reciprocal suffix (-an) plus the terminative vowel (-a). The study found that reciprocals do not change or influence the phonology of the verb. Yet another finding is that reflexives change the phonology of the verb. When the reflexive prefix -i is attached to the root verb, it sometimes changes the assimilation process.

Morpho-phonological

Anophors

Phonology

Northern Sotho language -- Phonology

An Empirical Method of Ascertaining the Null Points from a Dedicated Short-Range Communication (DSRC) Roadside Unit (RSU) at a Highway On/Off-Ramp

Walker, Jonathan Bearnarr

26 September 2018

The deployment of dedicated short-range communications (DSRC) roadside units (RSUs) allows a connected or automated vehicle to acquire information from the surrounding environment using vehicle-to-infrastructure (V2I) communication. However, wireless communication using DSRC has shown to exhibit null points, at repeatable distances. The null points are significant and there was unexpected loss in the wireless signal strength along the pathway of the V2I communication. If the wireless connection is poor or non-existent, the V2I safety application will not obtain sufficient data to perform the operation services. In other words, a poor wireless connection between a vehicle and infrastructure (e.g., RSU) could hamper the performance of a safety application. For example, a designer of a V2I safety application may require a minimum rate of data (or packet count) over 1,000 meters to effectively implement a Reduced Speed/Work Zone Warning (RSZW) application. The RSZW safety application is aimed to alert or warn drivers, in a Cooperative Adaptive Cruise Control (CACC) platoon, who are approaching a work zone. Therefore, the packet counts and/or signal strength threshold criterion must be determined by the developer of the V2I safety application. Thus, we selected an arbitrary criterion to develop an empirical method of ascertaining the null points from a DSRC RSU. The research motivation focuses on developing an empirical method of calculating the null points of a DSRC RSU for V2I communication at a highway on/off-ramp. The intent is to improve safety, mobility, and environmental applications since a map of the null points can be plotted against the distance between the DSRC RSU and a vehicle's onboard unit (OBU). The main research question asks: 'What is a more robust empirical method, compared to the horizontal and vertical laws of reflection formula, in determining the null points from a DSRC RSU on a highway on/off ramp?' The research objectives are as follows: 1. Explain where and why null points occur from a DSRC RSU (Chapter 2) 2. Apply the existing horizontal and vertical polarization model and discuss the limitations of the model in a real-world scenario for a DSRC RSU on a highway on/off ramp (Chapter 3 and Appendix A) 3. Introduce an extended horizontal and vertical polarization null point model using empirical data (Chapter 4) 4. Discuss the conclusion, limitations of work, and future research (Chapter 5). The simplest manner to understand where and why null points occur is depicted as two sinusoidal waves: direct and reflective waves (i.e., also known as a two-ray model). The null points for a DSRC RSU occurs because the direct and reflective waves produce a destructive interference (i.e., decrease in signal strength) when they collide. Moreover, the null points can be located using Pythagorean theorem for the direct and reflective waves. Two existing models were leveraged to analyze null points: 1) signal strength loss (i.e., a free space path loss model, or FSPL, in Appendix A) and 2) the existing horizontal and vertical polarization null points from a DSRC RSU. Using empirical data from two different field tests, the existing horizontal and vertical polarization null point model was shown to contain limitations in short distances from the DSRC RSU. Moreover, the existing horizontal and vertical polarization model for null points was extremely challenging to replicate with over 15 DSRC RSU data sets. After calculating the null point for several DSRC RSU heights, the paper noticed a limitation of the existing horizontal and vertical polarization null point model with over 15 DSRC RSU data sets (i.e., the model does not account for null points along the full length of the FSPL model). An extended horizontal and vertical polarization model is proposed that calculates the null point from a DSRC RSU. There are 18 model comparisons of the packet counts and signal strengths at various thresholds as perspective extended horizontal and vertical polarization models. This paper compares the predictive ability of 18 models and measures the fit. Finally, a predication graph is depicted with the neural network's probability profile for packet counts =1 when greater than or equal to 377. Likewise, a python script is provided of the extended horizontal and vertical polarization model in Appendix C. Consequently, the neural network model was applied to 10 different DSRC RSU data sets at 10 unique locations around a circular test track with packet counts ranging from 0 to 11. Neural network models were generated for 10 DSRC RSUs using three thresholds with an objective to compare the predictive ability of each model and measure the fit. Based on 30 models at 10 unique locations, the highest misclassification was 0.1248, while the lowest misclassification was 0.000. There were six RSUs mounted at 3.048 (or 10 feet) from the ground with a misclassification rate that ranged from 0.1248 to 0.0553. Out of 18 models, seven had a misclassification rate greater than 0.110, while the remaining misclassification rates were less than 0.0993. There were four RSUs mounted at 6.096 meters (or 20 feet) from the ground with a misclassification rate that ranged from 0.919 to 0.000. Out of 12 models, four had a misclassification rate greater than 0.0590, while the remaining misclassification rates were less than 0.0412. Finally, there are two major limitations in the research: 1) the most effective key parameter is packet counts, which often require expensive data acquisition equipment to obtain the information and 2) the categorical type (i.e., decision tree, logistic regression, and neural network) will vary based on the packet counts or signal strength threshold that is dictated by the threshold criterion. There are at least two future research areas that correspond to this body of work: 1) there is a need to leverage the extended horizontal and vertical polarization null point model on multiple DSRC RSUs along a highway on/off ramp, and 2) there is a need to apply and validate different electric and magnetic (or propagation) models. / Ph. D. / The deployment of dedicated short-range communications (DSRC) roadside units (RSUs) allows a connected or automated vehicle to acquire information from the surrounding environment using vehicle-to-infrastructure (V2I) communication. However, wireless communication using DSRC has shown to exhibit null points, at repeatable distances. The null points are significant and there was unexpected loss in the wireless signal strength along the pathway of the V2I communication. If the wireless connection is poor or non-existent, the V2I safety application will not obtain sufficient data to perform the operation services. In other words, a poor wireless connection between a vehicle and infrastructure (e.g., RSU) could hamper the performance of a safety application. For example, a designer of a V2I safety application may require a minimum rate of data (or packet count) over 1,000 meters to effectively implement a Reduced Speed/Work Zone Warning (RSZW) application. The RSZW safety application is aimed to alert or warn drivers, in a Cooperative Adaptive Cruise Control (CACC) platoon, who are approaching a work zone. Therefore, the packet counts and/or signal strength threshold criterion must be determined by the developer of the V2I safety application. Thus, we selected an arbitrary criterion to develop an empirical method of ascertaining the null points from a DSRC RSU. The research motivation focuses on developing an empirical method of calculating the null points of a DSRC RSU for V2I communication at a highway on/off-ramp. The intent is to improve safety, mobility, and environmental applications since a map of the null points can be plotted against the distance between the DSRC RSU and a vehicle’s onboard unit (OBU). The main research question asks: “What is a more robust empirical method, compared to the horizontal and vertical laws of reflection formula, in determining the null points from a DSRC RSU on a highway on/off ramp?” The research objectives are as follows: 1. Explain where and why null points occur from a DSRC RSU (Chapter 2) 2. Apply the existing horizontal and vertical polarization model and discuss the limitations of the model in a real-world scenario for a DSRC RSU on a highway on/off ramp (Chapter 3 and Appendix A) 3. Introduce an extended horizontal and vertical polarization null point model using empirical data (Chapter 4) 4. Discuss the conclusion, limitations of work, and future research (Chapter 5). The simplest manner to understand where and why null points occur is depicted as two sinusoidal waves: direct and reflective waves (i.e., also known as a two-ray model). The null points for a DSRC RSU occurs because the direct and reflective waves produce a destructive interference (i.e., decrease in signal strength) when they collide. Moreover, the null points can be located using Pythagorean theorem for the direct and reflective waves. Two existing models were leveraged to analyze null points: 1) signal strength loss (i.e., a free space path loss model, or FSPL, in Appendix A) and 2) the existing horizontal and vertical polarization null points from a DSRC RSU. Using empirical data from two different field tests, the existing horizontal and vertical polarization null point model was shown to contain limitations in short distances from the DSRC RSU. Moreover, the existing horizontal and vertical polarization model for null points was extremely challenging to replicate with over 15 DSRC RSU data sets. After calculating the null point for several DSRC RSU heights, the paper noticed a limitation of the existing horizontal and vertical polarization null point model with over 15 DSRC RSU data sets (i.e., the model does not account for null points along the full length of the FSPL model). An extended horizontal and vertical polarization model is proposed that calculates the null point from a DSRC RSU. There are 18 model comparisons of the packet counts and signal strengths at various thresholds as perspective extended horizontal and vertical polarization models. This paper compares the predictive ability of 18 models and measures the fit. Finally, a predication graph is depicted with the neural network’s probability profile for packet counts =1 when greater than or equal to 377. Likewise, a python script is provided of the extended horizontal and vertical polarization model in Appendix C. Consequently, the neural network model was applied to 10 different DSRC RSU data sets at 10 unique locations around a circular test track with packet counts ranging from 0 to 11. Neural network models were generated for 10 DSRC RSUs using three thresholds with an objective to compare the predictive ability of each model and measure the fit. Based on 30 models at 10 unique locations, the highest misclassification was 0.1248, while the lowest misclassification was 0.000. There were six RSUs mounted at 3.048 (or 10 feet) from the ground with a misclassification rate that ranged from 0.1248 to 0.0553. Out of 18 models, seven had a misclassification rate greater than 0.110, while the remaining misclassification rates were less than 0.0993. There were four RSUs mounted at 6.096 meters (or 20 feet) from the ground with a misclassification rate that ranged from 0.919 to 0.000. Out of 12 models, four had a misclassification rate greater than 0.0590, while the remaining misclassification rates were less than 0.0412. Finally, there are two major limitations in the research: 1) the most effective key parameter is packet counts, which often require expensive data acquisition equipment to obtain the information and 2) the categorical type (i.e., decision tree, logistic regression, and neural network) will vary based on the packet counts or signal strength threshold that is dictated by the threshold criterion. There are at least two future research areas that correspond to this body of work: 1) there is a need to leverage the extended horizontal and vertical polarization null point model on multiple DSRC RSUs along a highway on/off ramp, and 2) there is a need to apply and validate different electric and magnetic (or propagation) models.

Null Points

Reflection Coefficients

Transmission Coefficients

Roadside Unit (RSU)

Vehicle-to-Infrastructure (V2I)

Vehicle-to-Vehicle (V2V)

Planning Strategy

Design of a next-generation modern Michelson-Morley experiment

Nagel, Moritz

18 March 2022

Ein Fortschritt im Verständnis der Naturgesetzte wäre eine quantenphysikalische Beschreibung der Gravitation. Eine gültige Theorie der Quantengravitation (QG) existiert derzeit wegen des fehlenden experimentellen Zugangs des Planck-Skalen-Bereichs nicht. Dennoch können Experimente Hinweise für die Suche nach einer QG liefern. Die Standardmodellerweiterung (SME) bspw. beschreibt mögliche QG-induzierte beobachtbare niederenergetische Planck-Skalen-Effekte. Diesem Ansatz folgend wurde ein modernes Michelson-Morley-Experiment der nächsten Generation entwickelt, das es erstmalig erlaubt, simultan Obergrenzen für niederenergetische Planck-Skalen-Effekte in den Bewegungsgleichungen von Photonen und Fermionen zu bestimmen. Das zugrundeliegende theoretische Modell innerhalb der SME wurde neu betrachtet und Unstimmigkeiten korrigiert. Der Aufbau besteht aus ultra-stabilen kryogenen optischen Resonatoren (COREs) und Mikrowellenresonatoren, die gemeinsam im Raum rotieren. Die durch thermisches Rauschen limitierte vorhergesagte relative Frequenzinstabilität der entwickelten COREs liegt bei Temperaturen von flüssigem Helium im Bereich von 10^-17. Die Mikrowellenresonatoren können eine relative Frequenzinstabilität von 10^-16 erreichen. Um Störeinflüsse zu reduzieren, wurde zudem ein rauscharmer Niedrigtemperatur- sowie Drehtischaufbau konzipiert. Parallel wurde mit den Mikrowellenresonatoren ein einjähriges modernes Michelson-Morley-Experiment mit einer Sensitivität im Bereich von 10^-18 durchgeführt und erstmalig vollständig entkoppelte Obergrenzen für niederenergetische Planck-Skalen-Effekte im Bereich von 10^-17 bestimmt. Für den Aufbau der nächsten Generation lässt sich basierend auf der Frequenzinstabilität der COREs und der Mikrowellenresonatoren eine Sensitivität für niederenergetische Planck-Skalen-Effekte im Bereich von 10^-20 abschätzen. Zum ersten Mal kann somit der hypothetische Planck-unterdrückte-Bereich mit elektromagnetischen Resonatoren erkundet werden. / The next big leap in understanding the working principles of nature can be expected from a quantum physical description of gravity. None of the quantum gravity (QG) candidate theories can be verified, since observations at the Planck regime have currently been impossible. Still, experiments can help to give insights. For example, standard model extension (SME) describes potential observable low-energy remnant Planck scale effects. With this in mind, a design for a next-generation modern Michelson-Morley experiment has been developed that allows extracting upper bounds on potentially observable remnant Planck scale effects in the equations of motion of photons and fermions simultaneously. The corresponding theoretical model within the framework of the SME has been revisited and discrepancies have been corrected. The experimental setup consists of co-rotating ultra-stable cryogenic optical resonators (COREs) and ultra-stable sapphire loaded cryogenic microwave whispering-gallery resonators. The developed COREs have a theoretical thermal noise limited fractional frequency instability on the order of 10^-17 at liquid helium temperatures. The cryogenic microwave resonators allow in principle a performance on the order of 10^-16. For noise reduction, a suitable low noise cryogenic as well as turntable system has been designed. In parallel, a one-year modern Michelson-Morley measurement campaign with a sensitivity on the order of 10^-18 was carried out using the cryogenic microwave resonators. The experiment has allowed to set new stringent disentangled upper bounds on remnant Planck scale effects on the order of 10^-17. With the frequency performance of the COREs and cryogenic microwave resonators of the next-generation experimental setup, a sensitivity for remnant Planck scale effects on the order of 10^-20 can be estimated. Thus, the designed setup has the potential to explore the hypothetical Planck suppressed regime using electromagnetic resonators for the first time.

Resonator

kryogen

ultra-stabil

Lorentzinvarianz

Quantengravitation

Fundamentaler Test

resonator

cryogenic

ultra-stable

Lorentz invariance

quantum gravity

null experiment

530 Physik

ddc:530

Block-sparse models in multi-modality : application to the inverse model in EEG/MEG / Des modèles bloc-parcimonieux en multi-modalité : application au problème inverse en EEG/MEG

Afdideh, Fardin

12 October 2018

De nombreux phénomènes naturels sont trop complexes pour être pleinement reconnus par un seul instrument de mesure ou par une seule modalité. Par conséquent, le domaine de recherche de la multi-modalité a émergé pour mieux identifier les caractéristiques riches du phénomène naturel de la multi-propriété naturelle, en analysant conjointement les données collectées à partir d’uniques modalités, qui sont en quelque sorte complémentaires. Dans notre étude, le phénomène d’intérêt multi-propriétés est l’activité du cerveau humain et nous nous intéressons à mieux la localiser au moyen de ses propriétés électromagnétiques, mesurables de manière non invasive. En neurophysiologie, l’électroencéphalographie (EEG) et la magnétoencéphalographie (MEG) constituent un moyen courant de mesurer les propriétés électriques et magnétiques de l’activité cérébrale. Notre application dans le monde réel, à savoir le problème de reconstruction de source EEG / MEG, est un problème fondamental en neurosciences, allant des sciences cognitives à la neuropathologie en passant par la planification chirurgicale. Considérant que le problème de reconstruction de source EEG /MEG peut être reformulé en un système d’équations linéaires sous-déterminé, la solution (l’activité estimée de la source cérébrale) doit être suffisamment parcimonieuse pour pouvoir être récupérée de manière unique. La quantité de parcimonie est déterminée par les conditions dites de récupération. Cependant, dans les problèmes de grande dimension, les conditions de récupération conventionnelles sont extrêmement strictes. En regroupant les colonnes cohérentes d’un dictionnaire, on pourrait obtenir une structure plus incohérente. Cette stratégie a été proposée en tant que cadre d’identification de structure de bloc, ce qui aboutit à la segmentation automatique de l’espace source du cerveau, sans utiliser aucune information sur l’activité des sources du cerveau et les signaux EEG / MEG. En dépit du dictionnaire structuré en blocs moins cohérent qui en a résulté, la condition de récupération conventionnelle n’est plus en mesure de calculer la caractérisation de la cohérence. Afin de relever le défi mentionné, le cadre général des conditions de récupération exactes par bloc-parcimonie, comprenant trois conditions théoriques et une condition dépendante de l’algorithme, a été proposé. Enfin, nous avons étudié la multi-modalité EEG et MEG et montré qu’en combinant les deux modalités, des régions cérébrales plus raffinées sont apparues / Three main challenges have been addressed in this thesis, in three chapters.First challenge is about the ineffectiveness of some classic methods in high-dimensional problems. This challenge is partially addressed through the idea of clustering the coherent parts of a dictionary based on the proposed characterisation, in order to create more incoherent atomic entities in the dictionary, which is proposed as a block structure identification framework. The more incoherent atomic entities, the more improvement in the exact recovery conditions. In addition, we applied the mentioned clustering idea to real-world EEG/MEG leadfields to segment the brain source space, without using any information about the brain sources activity and EEG/MEG signals. Second challenge raises when classic recovery conditions cannot be established for the new concept of constraint, i.e., block-sparsity. Therefore, as the second research orientation, we developed a general framework for block-sparse exact recovery conditions, i.e., four theoretical and one algorithmic-dependent conditions, which ensure the uniqueness of the block-sparse solution of corresponding weighted mixed-norm optimisation problem in an underdetermined system of linear equations. The mentioned generality of the framework is in terms of the properties of the underdetermined system of linear equations, extracted dictionary characterisations, optimisation problems, and ultimately the recovery conditions. Finally, the combination of different information of a same phenomenon is the subject of the third challenge, which is addressed in the last part of dissertation with application to brain source space segmentation. More precisely, we showed that by combining the EEG and MEG leadfields and gaining the electromagnetic properties of the head, more refined brain regions appeared.

Multimodalité en EEG et MEG

Bloc-spark

Propriété null space par bloc

EEG and MEG Multimodal Detection

Block structure identification

Block-Spark

Block Null Space Property (Block-NSP)

004

620

Concepts and applications of quantum measurement

Knee, George C.

January 2014

In this thesis I discuss the nature of ‘measurement’ in quantum theory. ‘Measurement’ is associated with several different processes: the gradual imprinting of information about one system onto another, which is well understood; the collapse of the wavefunction, which is ill-defined and troublesome; and finally, the means by which inferences about unknown experimental parameters are made. I present a theoretical extension to an experimental proposal from Leggett and Garg, who suggested that the quantum-or-classical reality of a macroscopic system may be probed with successive measurements arrayed in time. The extension allows for a finite level of imperfection in the protocol, and makes use of Leggett’s ‘null result’ measurement scheme. I present the results of an experiment conducted in Oxford that, up to certain loopholes, defies a non-quantum interpretation of the dynamics of phosphorous nuclei embedded in silicon. I also present the theory of statistical parameter estimation, and discover that a recent trend to employ time symmetric ‘postselected’ measurements offers no true advantage over standard methods. The technique, known as weak-value amplification, combines a weak transfer of quantum information from system to meter with conditional data rejection, to surprising effect. The Fisher information is a powerful tool for evaluating the performance of any parameter estimation model, and it reveals the technique to be worse than ordinary, preselected only measurements. That this is true despite the presence of noise (including magnetic field fluctuations causing deco- herence, poor resolution detection, and random displacements), casts serious doubt on the utility of the method.

530.12

Analysis of Covariance with Linear Regression Error Model on Antenna Control Unit Tracking

Laird, Daniel T.

10 1900

ITC/USA 2015 Conference Proceedings / The Fifty-First Annual International Telemetering Conference and Technical Exhibition / October 26-29, 2015 / Bally's Hotel & Convention Center, Las Vegas, NV / Over the past several years DoD imposed constraints on test deliverables, requiring objective measures of test results, i.e., statistically defensible test and evaluation (SDT&E) methods and results. These constraints force the tester to employ statistical hypotheses, analyses and perhaps modeling to assess test results objectively, i.e., based on statistical metrics, probability of confidence and logical inference to supplement rather than rely solely on expertise, which is too subjective. Experts often disagree on interpretation. Numbers, although interpretable, are less variable than opinion. Logic, statistical inference and belief are the bases of testable, repeatable and refutable hypothesis and analyses. In this paper we apply linear regression modeling and analysis of variance (ANOVA) to time-space position information (TSPI) to determine if a telemetry (TM) antenna control unit (ACU) under test (AUT) tracks statistically, thus as efficiently, in C-band while receiving both C- and S-band signals. Together, regression and ANOVA compose a method known as analysis of covariance (ANCOVA). In this, the second of three papers, we use data from a range test, but make no reference to the systems under test, nor to causes of error. The intent is to present examples of tools and techniques useful for SDT&E methodologies in testing.

Null- and alternative-hypotheses

tracking mode

TM

AGC

ACU

Scan rate

Slew rate

TSPI samples

GPS

INS

observables

calculated

dataframe

R

inner-product

modeling

ANOVA

ANCOVA

F-test and t-test

PDF

CDF

What does it mean to be a “monkey-bird"?: mixed-race students’ educational experiences in the Manitoban K-12 public education system and their sense of identity

Bradley, Michelle

13 January 2017

This thesis explores three main questions: (1) How is diversity and equity in education in Manitoban schools addressed and does this include mixed-raced students?, (2) What are mixed-race students’ experiences with and perceptions of ethnocultural equity in the Manitoban secondary school system and how do these experiences impact their personal and collective identities in the following areas: Social (relationships with peers and family members), Political (notions of Canadian identity and citizenship), Identity (sense of cultural and racial identity and social positioning), Cultural (influences of related cultural groups and communities), and Pedagogical (instructional materials, relationships with teachers and staff, teaching practices and pedagogies, school policies and initiatives) and (3) What can educators and teacher-educators learn from this research that could be used toward a more informed and successful practice? Conclusions are that more work needs to be done to develop a provincial antiracism and ethnocultural policy document for development and implementation that will help establish a system of accountability and consistency, assist our leaders in understanding the complexities of mixedness, establish relationships with different relevant community groups and families, critically examine the curricula for bias, investigate student placement, provide opportunities for counselling staff, explore how to prepare staff to deal with racial and ethnocultural harassment, and consider the representation of mixedness in the staff population. / February 2017

Critical mixed-race pedagogy

Acting race

Blood quantum

Critical mixed-race theory

Hidden curriculum

Identity development

Identity formation

Kinship journey

Micro-aggression

Mixed-race

Multicultural education

Null curriculum

Overt curriculum

Racial took kit

White privilege

Pseudo wh-fronting: a diagnosis of wh-constructions in Jordanian Arabic

Al-Daher, Zeyad

29 November 2016

This thesis provides an in-depth analysis of wh-question formation in Jordanian Arabic (JA) and presents a uniform approach that can accommodate all of its various wh-constructions. JA makes use of five different wh-constructions, four of which involve clause-initial wh-phrases and the fifth is a typical in-situ wh-construction. Although wh-phrases surface clause-initially in four different wh-constructions in JA, I propose that bona fide wh-movement to [Spec, CP] does not occur in any of these constructions, whether overtly in syntax or covertly at LF. I abandon the classification of JA as a wh-movement language (Abdel Razaq 2011) and focus instead on identifying the syntactic role that wh-phrases realize and the underlying structures that feed each wh-construction. I propose that the clause-initial position of the wh-phrase results either from the syntactic function that the wh-phrase serves or from other syntactic operations that are independently attested in JA. There are three clause-initial positions that the wh-phrase can occupy: it surfaces in [Spec, TP] when functioning as the subject of a verbal or verbless structure, in [Spec, TopP] when functioning as a clitic-left-dislocated element (as in CLLD questions and ʔilli-interrogatives involving PRON), or in [Spec, FocP] when undergoing focus fronting. Thus, all instances of clause-initial wh-phrases in JA constitute what I refer to as “pseudo wh-fronting”, as the clause-initial position of the wh-phrase arises from mechanisms other than canonical wh-movement to [Spec, CP]. To account for the interpretation of wh-phrases in JA, I adopt a binding approach in which a null interrogative morpheme (Baker 1970; Pesetsky 1987; Chomsky 1995) unselectively binds the wh-phrase regardless of its surface position, whether clause-initial or clause-internal (in-situ). A major implication of this analysis is that JA is a concealed wh-in-situ language of the Chinese type although it looks at a cursory glance as though it were a wh-movement language of the English type. A broader typological implication of my analysis is the convergence of Cheng’s (1991) Clausal Typing Hypothesis to which JA previously appeared to constitute a counterexample. The recognition of the null interrogative particle, or its optional overt realization as the Q-particle huwweh, as the locus of interrogative clause typing in all JA wh-questions entails that JA employs just one unique strategy to type a clause as a wh-question, as predicted by Cheng’s Clausal Typing Hypothesis, regardless of whether the wh-phrase surfaces clause-initially or clause-internally. / February 2017

Pseudo wh-fronting

Wh-question formation

Jordanian Arabic

In-situ wh-construction

Clitic-left-dislocation

Focus fronting

Unselective binding

Null interrogative particle

Q-particle

Concealed wh-in-situ

Syntactic analysis

Linguistics

Clausal typing hypothesis

Contrôle d'équations dispersives pour les ondes de surface / Control of dispersive equations for surface waves

Capistrano Filho, Roberto De Almeida

20 February 2014

Dans cette thèse, nous prouvons des résultats concernant le contrôle et la stabilisation d'équations dispersives étudiées sur un intervalle borné. Pour commencer, nous étudions la stabilisation interne du système de Gear-Grimshaw, qui est un système de deux équations de Korteweg-de-Vries (KdV) couplées. Nous obtenons une décroissance exponentielle de l'énergie totale associée au modèle en introduisant une fonction de Lyapunov convenable. Nous prouvons aussi des résultats de contrôlabilité à zéro et exacte pour l'équation de Korteweg-de Vries avec un contrôle distribué à support dans un sous-intervalle du domaine. Pour la contrôlabilité à zéro du système linéarisé, nous utilisons l'approche classique basée sur la dualité qui ramène le problème à l'étude d'une inégalité d'observabilité qui, dans ce travail, est établie à l'aide d'une inégalité de Carleman. Ensuite, utilisant des fonctions plateau, nous prouvons un résultat de contrôlabilité exacte. Dans les deux cas, le résultat concernant le système non linéaire est obtenu à l'aide d'un argument de point fixe. Enfin, dans la lignée du résultat de contrôlabilité au bord obtenu par L. Rosier pour KdV, nous prouvons que le système linéaire de Boussinesq de type KdV-KdV est exactement contrôlable lorsque des contrôles sont appliqués au bord. Notre méthode repose sur l'utilisation de multiplicateurs et l'approche de la dualité mentionnée ci-dessus. Lorsqu'un mécanisme d'amortissement est introduit au bord, nous montrons que le système non linéaire est aussi exactement contrôlable et que l'énergie associée au modèle décroit exponentiellement / This work is devoted to prove a series of results concerning the control and stabilization properties of dispersive models posed on a bounded interval. Initially, we study the internal stabilization of a coupled system of two Korteweg-de Vries equations (KdV), the so-called Gear-Grimshaw system. Defining a convenient Lyapunov function we obtain the exponential decay of the total energy associated to the model. We also prove results of null and exact controllability for the Korteweg-de Vries equation with a control acting internally on a subset of the domain. In the case of the null controllability for the linear model, we use a classical duality approach which reduces the problem to the study of an observability inequality that, in this work, is proved by means of a Carleman inequality. Then, making use of cut-off functions, the exact controllability is also investigated. In both cases, the result for the nonlinear system is obtained by means of fixed-point argument. Finally, in view of the result of the boundary controllability obtained by L. Rosier for the KdV equation, we prove that the linear Boussinesq system of KdV-KdV type is exactly controllable when the controls act in the boundary conditions. Our analysis is performed using multipliers and the duality approach mentioned above. Adding a damping mechanism in the boundary, it is proved that the nonlinear system is also exactly controllable and that the energy associated to the model decays exponentially

Stabilisation

Fonction de Lyapunov

Contrôlabilité exacte

Contrôlabilité à zéro

Inégalité de Carleman

Système de Gear-Grimshaw

Équation de Korteweg-de Vries

Système de Boussinesq

Stabilization

Lyapunov function

Exact controllability

Null controllability

Carleman inequality

Gear-Grimshaw system

Korteweg-de Vries equation

Boussinesq system

515.72

530.124