Готові списки джерел за темами / Morphology

Добірка наукової літератури з теми "Morphology"

Автор: Grafiati
Опубліковано: 4 червня 2021
Оновлено: 25 липня 2024

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Статті в журналах з теми "Morphology"

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Savazzi, Enrico. "Theoretical shell morphology as a tool in constructional morphology." Neues Jahrbuch für Geologie und Paläontologie - Abhandlungen 195, no. 1-3 (February 14, 1995): 229–40. http://dx.doi.org/10.1127/njgpa/195/1995/229.

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Reif, Wolf-Ernst. "The primacy of morphology: pattern cladism, idealistic morphology, and evolution." Neues Jahrbuch für Geologie und Paläontologie - Abhandlungen 228, no. 3 (June 30, 2003): 399–419. http://dx.doi.org/10.1127/njgpa/228/2003/399.

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3

Zwicky, Arnold M., and Geoffrey K. Pullum. "Plain Morphology and Expressive Morphology." Annual Meeting of the Berkeley Linguistics Society 13 (September 10, 1987): 330. http://dx.doi.org/10.3765/bls.v13i0.1817.

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4

Nash, David B. "A general method for morphologic dating of hillslopes." Geology 33, no. 8 (August 1, 2005): 693–95. http://dx.doi.org/10.1130/g21479ar.1.

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Abstract Morphologic dating of hillslopes is the determination of the age of a hillslope by its morphology. Current methods match the observed morphology with the morphology predicted by the diffusion-equation model for hillslope evolution. The morphologic dating method presented here requires no specific model for evolution, but is only applicable to transport-limited hillslopes on which the downslope debris flux is some scale- and time-independent function of slope angle. If these conditions are met, changes in morphology with scale (e.g., height) for a set of hillslopes of a fixed age are identical to changes in morphology with time for a hillslope of a fixed scale. This fact provides the basis for a simple, generally applicable method for morphologically dating such hillslopes with any initial morphology. This new dating method may be applied to a wide variety of vegetated hillslopes in temperate humid regions and is an improvement over previous morphologic dating methods that relied on the diffusion-equation model.
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Becker, A. E. "Morphology." Current Opinion in Cardiology 1, no. 1 (January 1986): 73–84. http://dx.doi.org/10.1097/00001573-198601000-00014.

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Becker, A. E. "Morphology." Current Opinion in Cardiology 2, no. 1 (January 1987): 111–17. http://dx.doi.org/10.1097/00001573-198701010-00022.

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Becker, A. E. "Morphology." Current Opinion in Cardiology 3, no. 1 (January 1988): 55–61. http://dx.doi.org/10.1097/00001573-198801000-00010.

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Weinberg, Paul M. "Morphology." Current Opinion in Cardiology 4, no. 1 (February 1989): 64–70. http://dx.doi.org/10.1097/00001573-198902000-00014.

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9

Hartroft, W. S. "Morphology." Annals of the New York Academy of Sciences 111, no. 1 (December 15, 2006): 524–34. http://dx.doi.org/10.1111/j.1749-6632.1963.tb36992.x.

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Meek, Anna. "Morphology." Missouri Review 24, no. 3 (2001): 25. http://dx.doi.org/10.1353/mis.2001.0134.

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Дисертації з теми "Morphology"

1

Blaszczak, Joanna, Stefanie Dipper, Gisbert Fanselow, Shinishiro Ishihara, Svetlana Petrova, Stavros Skopeteas, Thomas Weskott, and Malte Zimmermann. "Morphology." Universität Potsdam, 2007. http://opus.kobv.de/ubp/volltexte/2008/2224/.

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The guidelines for morphological annotation contain the layers that are necessary for understanding the structure of the words in the object language: morphological segmentation, glossing, and annotation of part-of-speech.
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2

Appah, Clement. "Construction morphology : issues in Akan complex nominal morphology." Thesis, Lancaster University, 2013. http://eprints.lancs.ac.uk/81565/.

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Akan, like any other language, has both regular and irregular complex nominals (CNs). However, previous studies of Akan nominals have been constructive in approach, mostly adhering to a strict form of the principle of compositionality and assuming that the morphological, phonological and semantic properties of CNs can be accounted for fully by tweaking those of their constituents. Consequently, CNs whose properties cannot be so accounted for are either ignored or forced into the mould of regular ones. In this study, I do three things. First, I present a detailed empirically-based assessment of attested CNs in Akan based on a dataset of 1000 CNs drawn from a variety of written sources. This shows that Akan CNs may be grouped into four; compounds, affix-derived CNs, those formed by tonal changes and “lexicalized” forms, which have the form of phrases but occur as CNs and are mostly only partially compositional. Secondly, I present a detailed discussion of the formal and semantic properties of all the attested compounds and a subset of the lexicalized nominals. Thirdly, on the basis of the latter discussion, I examine what the formation and structure of CNs reveal about the interaction between morphology and syntax and about the architecture of the grammar. The analyses show that the formation of CNs in Akan may at once involve morphological and syntactic structure in a way that renders untenable the view that morphology and syntax constitute two completely different modules of the grammar which may be assumed to interact only because the output of the former is the input to the latter. The present study provides support for the constructional view of the grammar.
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3

Dimmer, Elizabeth Lauren. "Genre morphology." Tallahassee, Fla. : Florida State University, 2010. http://purl.fcla.edu/fsu/lib/digcoll/undergraduate/honors-theses/2181961.

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4

Donath, Alexander. "Molecular Morphology." Doctoral thesis, Universitätsbibliothek Leipzig, 2011. http://nbn-resolving.de/urn:nbn:de:bsz:15-qucosa-71028.

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A fundamental problem in biology is the reconstruction of the relatedness of all (extant) species. Traditionally, systematists employ visually recognizable characters of organisms for classification and evolutionary analysis. Recent developments in molecular and computational biology, however, lead to a whole different perspective on how to address the problem of inferring relatedness. The discovery of molecules, carrying genetic information, and the comparison of their primary structure has, in a rather short period of time, revolutionized our understanding of the phylogenetic relationship of many organisms. These novel approaches, however, turned out to bear similar problems as previous techniques. Moreover, they created new ones. Hence, taxonomists came to realize that even with this new type of data not all problematic relationships could be unambiguously resolved. The search for complementary approaches has led to the utilization of rare genomic changes and other characters which are largely independent from the primary structure of the underlying sequence(s). These “higher order” characters are thought to be evolutionary conserved in certain lineages and largely unaffected by primary sequence data-based problems, allowing for a better resolution of the Tree of Life. The central aim of this thesis is the utilization of molecular characters of higher order in connection with their consistent and comparable extraction from a given data set. Two novel methods are presented that allow such an inference. This is complemented with the search for and analysis of known and novel molecular characteristics to study the relationships among Metazoa, both intra- as well as interspecific. The first method tackles a common problem in phylogenetic analyses: the inference of reliable data set. As part of this thesis a pipeline was created for the automated annotation of metazoan mitochondrial genomes. Data thus obtained constitutes a reliable and standardized starting point for all downstream analyses, e.g. genome rearrangement studies. The second method utilizes a subclass of gaps, namely those which define an approximate split of a given data set. The definition and inference of such split-inducing indels (splids) is based on two basic principles. First, indels at the same position, i.e. sharing the same end points in two sequences, are likely homologous. Second, independent single-residue insertions and deletions tend to occur more frequently than multi-residue indels. It is shown that trees based on splids recover most of the undisputed monophyletic groups while influence of the underlying alignment algorithm is relatively small. Mitochondrial markers are a valuable tool for the understanding of small and large scale population structure. The non-coding control region of mitochondrial DNA (mtDNA) often contains a higher amount of variability compared to genes encoding proteins and non-coding RNAs. A case study on a small scale population structure investigates the control region of the European Fire-bellied Toad in order to find highly variable parts which are of potential importance to develop informative genetic markers. A particular focus is placed on the investigation of the evolutionary dynamics of the repetitive region at an inter- and intraspecific level. This includes understanding mechanisms underlying its evolution, i.e. by exploring the impact of secondary structure on slipped strand mispairing during mtDNA replication. The 7SK RNA is a key player in the regulation of polymerase II (Pol-II) transcription, interacting with at least three known proteins: It mediates the inhibition of the Positive Transcription Elongation Factor b (P-TEFb) by the HEXIM1/2 proteins, thereby repressing transcript elongation by Pol-II. A highly specific interaction with LARP7 (La-Related Protein 7), on the other hand, regulates its stability. 7SK RNA is capped at its 5’ end by a highly specific methyltransferase MePCE (Methylphosphate Capping Enzyme). Employing sequence and structure similarity it is shown that the 7SK RNA as well as its protein binding partners have a much earlier evolutionary origin than previously expected. Furthermore, this study presents a good illustration of the pitfalls of using markers of higher order for phylogenetic inference.
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McWilliams, Brandon K. "Cuspate shoreline morphology." Thesis, Monterey, Calif. : Springfield, Va. : Naval Postgraduate School ; Available from National Technical Information Service, 2005. http://library.nps.navy.mil/uhtbin/hyperion/05Jun%5FMcWilliams.pdf.

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Thesis (M.S. in Meteorology and Physical Oceanography)--Naval Postgraduate School, June 2005.
Thesis Advisor(s): Edward Thornton, Timothy Stanton. Includes bibliographical references (p. 53-54). Also available online.
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Künzler, Tobias P. "Surface morphology gradients /." Zürich : ETH, 2007. http://e-collection.ethbib.ethz.ch/show?type=diss&nr=17049.

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O'Meara, John 1954. "Delaware stem morphology." Thesis, McGill University, 1990. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=39236.

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The derivational morphology of Munsee Delaware, an Eastern Algonquian language spoken in southwestern Ontario, is analysed and described. Chapter I presents general information about Delaware, including a summary of grammatical information necessary for the understanding of word structure. The theoretical constructs assumed are summarized. A distinction is made between primary derivation, in which suffixes are attached to roots (and affixes) to form stems; and secondary derivation, in which suffixes are attached to stems to form new stems. Inflectional affixes are attached to stems which are formed in primary or secondary derivation. Chapter II discusses verb-forming suffixes ('finals') added to roots and certain suffixes to form verb stems. Chapter III discusses verb-forming suffixes which attach to existing noun and verb stems to form verb stems (secondary derivation). Chapter IV discusses 'medials', which prototypically occur between roots and 'final' suffixes. Chapter V discusses noun-forming suffixes which are attached to roots and medials. Chapter VI discusses noun-forming suffixes which attach to existing noun and verb stems to form noun stems (secondary derivation). Chapter VII discusses bound variants of noun stems, morphological elements which occur as members of morphologically complex noun stems.
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Barisch-Fritz, Bettina. "Dynamic Foot Morphology." Doctoral thesis, Universitätsbibliothek Chemnitz, 2014. http://nbn-resolving.de/urn:nbn:de:bsz:ch1-qucosa-150328.

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Background: The foot has to fulfil important and complex functions which are, in most regions of the world, supported by shoes. The interface of feet and footwear has often been considered with respect to comfort and function but also to negative effects of shoes. One main contribution to the improvement of footwear fit is provided by matching the shape of the shoe to the shape of the foot. However, current approaches for implementation only include static information. There is still a lack of dynamic information about foot morphology and deformation. Recent advancements in scanner technology allow capturing the foot during natural walking. These advancements and the development of a dynamic foot scanner system (DynaScan4D) are preconditions for this thesis. The research question is: How does foot morphology differ between static and dynamic situations? This question is further specified toward three hypotheses by findings and deficits of the current state of research. The examination of the three hypotheses and their contribution to the research question are topic of this thesis. Furthermore, the findings are combined with comprehensive knowledge of the literature to formulate recommendations for last and footwear construction. Methods: The three hypotheses (H1, H2, H3) are evaluated within three research articles. The first research article aims to identify the differences in dynamic foot morphology according to age, gender, and body mass (H1). The plantar dynamic foot morphology of 129 adults is recorded and analysed by two statistical methods: (1) comparison of matched groups and (2) multiple linear regression analysis. The second and third research article is dealing with differences between static and dynamic foot morphology in developing feet (H2) and their inter-individual differences (H3). For this reason, a large sample of 2554 children, aged between 6 and 16 years, is analysed. Foot measures, corresponding to last measures, are used to identify the differences between static and dynamic foot morphology (H2) by Student's t-test for paired samples. The influences of gender, age, and body mass (H3) are analysed within the whole sample by multiple linear regression analysis and within matched groups by Student's t-test for independent samples. Results: There are differences in dynamic foot morphology according to age, gender, and body mass in adults which confirm H1. In general, the differences are rather small. Furthermore, the differences must be considered in a more differentiated way, as they are not consistent regarding all plantar foot measures. H2 is confirmed as there are statistically signiffcant differences between static and dynamic foot morphology in developing feet. Theses differences are found for all foot measures. However, the magnitude of these differences varies depending on each foot measure. Relevant differences, in particular the forefoot width and midfoot girth measures as well as the angles of the forefoot, must be considered for footwear construction. Influences of gender, age, and body mass are found for the dynamic foot morphology and the differences between static and dynamic foot morphology of developing feet. Thus, H3 is verified. However, these findings are small, especially considering the high variance within each foot measure. The variables gender, age, and body mass cannot appropriately explain the variance of the differences between static and dynamic foot morphology. Thus, the customization of footwear to dynamic foot morphology can be conducted without individual adjustments to gender, age, or body mass. Conclusion: This thesis presents different aspects to answer the question of differences between static and dynamic foot morphology. The findings of this thesis are critically discussed and recommendations for improvements of dynamic fit of footwear are formulated, taking into account the current state of research as well as practical aspects. The findings of the thesis contribute to the field of fundamental research, i.e. to broaden the knowledge about three-dimensional characteristics of dynamic foot morphology. Furthermore, this thesis can help to improve the fit of footwear and thus contributes to applied research in the field of footwear science
Hintergrund: Der Fuß erfüllt wichtige und komplexe Funktionen, die in den meisten Regionen der Welt, durch Schuhe unterstützt werden. Die Berührungspunkte zwischen Schuhen und Füßen wurden im Hinblick auf komfortable und funktionelle Schuhe, aber auch hinsichtlich negativer Effekte von Schuhen, häufig betrachtet. Ein wesentlicher Beitrag zur Verbesserung der Passform von Schuhen liefert die Annäherung der Schuhform an die Fußform. Jedoch beschränken sich bisherige Umsetzungsansätze auf statische Informationen. Bislang fehlen umfangreiche dynamische Informationen zur Fußgestalt und Verformung. Erst aktuelle Fortschritte der Scanner-Technologie ermöglichen es, den Fuß während des natürlichen Gehens zu erfassen. Diese Fortschritte und die Entwicklung eines dynamischen Fuß-Scanner-Systems (DynaScan4D), stellen die Grundlage für diese Dissertation dar. Die Forschungsfrage ist: Wie unterscheidet sich die statische Fußgestalt von der dynamischen? Mit der Aufarbeitung von Ergebnissen und Defiziten aktueller Forschungsarbeiten wird diese Frage durch die Formulierung von drei Hypothesen weiter spezifiziert. Diese drei Hypothesen, sowie deren Beitrag zur Forschungsfrage, sind Thema dieser Dissertation. Darüber hinaus wird umfassendes Wissen aus der Literatur verwendet um Empfehlungen für die Konstruktion von Schuhen zu geben. Methoden: Die drei Hypothesen (H1, H2, H3) werden in drei wissenschaftlichen Veröffentlichungen untersucht. Die erste Veröffentlichung zielt darauf ab, die Unterschiede zwischen der dynamischen Fußgestalt in Abhängigkeit von Alter, Geschlecht und Körpermasse zu ermitteln (H1). Die plantare dynamische Fußgestalt von 129 Erwachsenen wird hierzu erfasst und durch zwei statistische Verfahren analysiert: (1) Vergleich von gepaarten Probandengruppen und (2) multiple lineare Regressionsanalyse. Die zweite und dritte Hypothese befassen sich mit den Unterschieden der statischen und dynamischen Fußgestalt bei heranreifenden Füßen (H2) und deren inter-individuellen Unterschieden (H3). Aus diesem Grund wird eine große Stichprobe mit 2554 Kindern im Alter zwischen 6 und 16 Jahren untersucht. Fußmaße, die den Maßen im Leistenbau entsprechen, werden verwendet um die Unterschiede zwischen der statischen und der dynamischen Fußgestalt (H2) durch einen gepaarten Student's t-Test zu identifizieren. Der Einfluss des Geschlechtes, des Alters und der Körpermasse (H3) werden in der gesamten Stichprobe durch eine multiple lineare Regressionsanalyse und innerhalb gepaarter Probandengruppen durch Student's t-Test für unabhängige Stichproben untersucht. Ergebnisse: Es gibt Unterschiede in der dynamischen Fußgestalt von Erwachsenen, beeinflusst durch Alter, Geschlecht und Körpermasse, welche die Verifizierung von H1 erlauben. Im Allgemeinen sind diese Unterschiede jedoch gering. Die ermittelten Unterschiede müssen differenziert betrachtet werden, da sie nicht konsistent in Bezug auf die gesamte plantare Fußgestalt auftreten. H2 kann verifiziert werden, da es zwischen der statischen und der dynamischen Fußgestalt von heranreifenden Kindern statistisch signifikante Unterschiede gibt. Diese Unterschiede wurden bei allen Fußmaßen gefunden, wobei das Außmaß dieser Unterschiede in Abhängigkeit vom jeweiligen Fußmaß variiert. Relevante Unterschiede, insbesondere Breitenmaße und Winkelmaße des Vorfußes sowie Umfangsmaße des Mittelfußes, müssen bei der Konstruktion von Schuhen berücksichtigt werden. Es zeigen sich Einflüsse von Geschlecht, Alter und Körpermasse auf die dynamische Fußgestalt sowie auf die Differenzen zwischen der statischen und der dynamischen Fußgestalt. Somit ist H3 verifiziert. Jedoch sind diese Einflüsse gering, besonders wenn die Varianz innerhalb der Fußmaße betrachtet wird. Die Variablen Alter, Geschlecht und Körpermasse können die Varianz der Differenzen zwischen der statischen und der dynamischen Fußgestalt nicht angemessen erklären. Damit kann die Anpassung an die dynamische Fußgestalt ohne eine Individualisierung hinsichtlich Alter, Geschlecht oder Körpermasse vollzogen werden. Schlussfolgerungen: Die vorliegende Dissertation stellt unterschiedliche Aspekte zur Beantwortung der Frage, welche Unterschiede zwischen der statischen und der dynamischen Fußgestalt bestehen, vor. Die Ergebnisse der Arbeit werden kritisch diskutiert und es werden, unter Berücksichtigung des aktuellen Forschungsstandes sowie praktischer Aspekte, Empfehlungen zur Optimierung der dynamischen Passform von Schuhen gegeben. Die Ergebnisse der Dissertation liefern einen Beitrag zur Grundlagenforschung, insbesondere durch die Erweiterung des Wissensstands der dreidimensionalen Eigenschaften der dynamischen Fußgestalt. Darüber hinaus kann diese Arbeit helfen die dynamische Passform von Schuhen zu verbessern und trägt damit zur angewandten Schuhforschung bei
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9

Rosgen, David L. "Applied river morphology." Thesis, University of East Anglia, 2003. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.405231.

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Gardner, David John. "Hypervelocity impact morphology." Thesis, University of Kent, 1995. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.294316.

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Книги з теми "Morphology"

1

Wainwright, Stephen A. Axis and circumference: The cylindrical shape of plants and animals. Cambridge, Mass: Harvard University Press, 1988.

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2

Katamba, Francis. Morphology. London: Macmillan Education UK, 1993. http://dx.doi.org/10.1007/978-1-349-22851-5.

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3

Katamba, Francis, and John Stonham. Morphology. London: Macmillan Education UK, 2006. http://dx.doi.org/10.1007/978-1-137-11131-9.

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4

Katamba, Francis. Morphology. 2nd ed. Houndsmills, Basingstoke, Hampshire: Palgrave Macmillan, 2006.

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5

Matthews, P. H. Morphology. 2nd ed. Cambridge [England]: Cambridge University Press, 1991.

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6

Morphology. Basingstoke: Macmillan, 1993.

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7

A textbook of invertebrate morphology. 2nd ed. New York: H. Holt, 1985.

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8

McMurrich, J. Playfair. A textbook of invertebrate morphology. 2nd ed. New York: H. Holt, 1985.

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9

1963-, Hoff Karin, Mössinger Ingrid, and Städtische Kunstsammlungen Chemnitz, eds. Bjørn Nørgaard: Mythos und Morphologie = myth and morphology. Köln: Wienand, 2009.

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10

Louisa, Sadler, and Spencer Andrew, eds. Projecting morphology. Stanford, Calif: Centre for the Study of Language and Information, 2004.

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Частини книг з теми "Morphology"

1

Katamba, Francis. "Introduction." In Morphology, 3–16. London: Macmillan Education UK, 1993. http://dx.doi.org/10.1007/978-1-349-22851-5_1.

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Katamba, Francis. "Inflectional Morphology." In Morphology, 205–54. London: Macmillan Education UK, 1993. http://dx.doi.org/10.1007/978-1-349-22851-5_10.

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Katamba, Francis. "Morphological Mapping of Grammatical Functions." In Morphology, 255–90. London: Macmillan Education UK, 1993. http://dx.doi.org/10.1007/978-1-349-22851-5_11.

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4

Katamba, Francis. "Idioms and Compounds: The Interpretation of the Lexicon, Morphology and Syntax." In Morphology, 291–329. London: Macmillan Education UK, 1993. http://dx.doi.org/10.1007/978-1-349-22851-5_12.

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Katamba, Francis. "Introduction to Word-Structure." In Morphology, 17–40. London: Macmillan Education UK, 1993. http://dx.doi.org/10.1007/978-1-349-22851-5_2.

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Katamba, Francis. "Types of Morphemes." In Morphology, 41–64. London: Macmillan Education UK, 1993. http://dx.doi.org/10.1007/978-1-349-22851-5_3.

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Katamba, Francis. "Productivity in Word-Formation." In Morphology, 65–85. London: Macmillan Education UK, 1993. http://dx.doi.org/10.1007/978-1-349-22851-5_4.

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Katamba, Francis. "Introducing Lexical Morphology." In Morphology, 89–110. London: Macmillan Education UK, 1993. http://dx.doi.org/10.1007/978-1-349-22851-5_5.

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Katamba, Francis. "Insights from Lexical Morphology." In Morphology, 111–32. London: Macmillan Education UK, 1993. http://dx.doi.org/10.1007/978-1-349-22851-5_6.

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Katamba, Francis. "Lexical Morphology: An Appraisal." In Morphology, 133–53. London: Macmillan Education UK, 1993. http://dx.doi.org/10.1007/978-1-349-22851-5_7.

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Тези доповідей конференцій з теми "Morphology"

1

Goldman, Omer, and Reut Tsarfaty. "Well-Defined Morphology is Sentence-Level Morphology." In Proceedings of the 1st Workshop on Multilingual Representation Learning. Stroudsburg, PA, USA: Association for Computational Linguistics, 2021. http://dx.doi.org/10.18653/v1/2021.mrl-1.23.

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2

Bernecky, Robert. "Array morphology." In the international conference. New York, New York, USA: ACM Press, 1993. http://dx.doi.org/10.1145/166197.166200.

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3

Leite, J., and R. Justo. "Typo-morphology." In The 10th EAAE/ARCC International Conference. Taylor & Francis Group, 6000 Broken Sound Parkway NW, Suite 300, Boca Raton, FL 33487-2742: CRC Press, 2017. http://dx.doi.org/10.1201/9781315226255-180.

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4

Vlieg, Elias, Hugo Meekes, W. Wang, Katsuo Tsukamoto, and Di Wu. "Crystal Morphology." In SELECTED TOPICS ON CRYSTAL GROWTH: 14th International Summer School on Crystal Growth. AIP, 2010. http://dx.doi.org/10.1063/1.3476223.

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5

Haralick, Robert M., Edward R. Dougherty, Jaekyu Ha, Tapas Kanungo, S. Karasu, Chang K. Lee, Larry R. Rystrom, Visvanathan Ramesh, and Ihsin T. Phillips. "Statistical morphology." In SPIE's 1993 International Symposium on Optics, Imaging, and Instrumentation, edited by Edward R. Dougherty, Paul D. Gader, and Jean C. Serra. SPIE, 1993. http://dx.doi.org/10.1117/12.146659.

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Agaian, Sos S. "Visual morphology." In Electronic Imaging '99, edited by Edward R. Dougherty and Jaakko T. Astola. SPIE, 1999. http://dx.doi.org/10.1117/12.341081.

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Yuille, Alan L., Luc M. Vincent, and Davi Geiger. "Statistical morphology." In San Diego, '91, San Diego, CA, edited by Paul D. Gader and Edward R. Dougherty. SPIE, 1991. http://dx.doi.org/10.1117/12.46122.

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Yablonsky, Serge. "Russian morphology." In the 2003 EACL Workshop. Morristown, NJ, USA: Association for Computational Linguistics, 2003. http://dx.doi.org/10.3115/1613200.1613212.

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9

Forsberg, Markus, and Aarne Ranta. "Functional morphology." In the ninth ACM SIGPLAN international conference. New York, New York, USA: ACM Press, 2004. http://dx.doi.org/10.1145/1016850.1016879.

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Kuusik, Evelin. "Learning morphology." In the 16th conference. Morristown, NJ, USA: Association for Computational Linguistics, 1996. http://dx.doi.org/10.3115/993268.993376.

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Звіти організацій з теми "Morphology"

1

McGuire, Dennis W. Lattice-Algebraic Morphology. Fort Belvoir, VA: Defense Technical Information Center, September 1998. http://dx.doi.org/10.21236/ada353568.

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Courtney, R. Halifax Harbour bathymetric morphology. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1993. http://dx.doi.org/10.4095/184065.

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Jansa, L. F. Lithostratigraphy 10: carbonate buildup morphology. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1991. http://dx.doi.org/10.4095/210648.

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Garcia, Marcelo H. Turbidity Currents and Seabed Morphology. Fort Belvoir, VA: Defense Technical Information Center, September 2004. http://dx.doi.org/10.21236/ada613084.

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Pople, John A. Morphology of Thermoplastic Elastomers:Stereoblock Polypropylene. Office of Scientific and Technical Information (OSTI), August 2002. http://dx.doi.org/10.2172/799985.

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Gillie, R. D. Beaufort Sea Coastal Morphology Study. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1987. http://dx.doi.org/10.4095/131303.

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McGuire, Dennis W. Continuous Lattices and Mathematical Morphology. Fort Belvoir, VA: Defense Technical Information Center, June 1998. http://dx.doi.org/10.21236/ada346769.

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Kaplan, Greg, and Guido Menzio. The Morphology of Price Dispersion. Cambridge, MA: National Bureau of Economic Research, January 2014. http://dx.doi.org/10.3386/w19877.

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Jacobson, Randy. Transform and Fracture Zone Morphology. Fort Belvoir, VA: Defense Technical Information Center, September 1985. http://dx.doi.org/10.21236/ada219017.

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Krippaehne, Suzanne. Three Dimensional Mammalian Skull Morphology. Portland State University Library, January 2000. http://dx.doi.org/10.15760/etd.6485.

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