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Libros sobre el tema "Orthogonal time frequency space"

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Publicado: 6 de septiembre de 2023

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1

Liang, Guan Yong y Tjhung Tjeng Thiang, eds. Quasi-orthogonal space-time block code. London: Distributed by World Scientific, 2007.

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2

Le Tran, Chung, Tadeusz A. Wysocki, Alfred Mertins y Jennifer Seberry. Complex Orthogonal Space-Time Processing in Wireless Communications. Boston, MA: Springer US, 2006. http://dx.doi.org/10.1007/978-0-387-29544-2.

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3

Tran, Le Chung. Complex orthogonal space-time processing in wireless communications. New York: Springer, 2011.

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4

Combes, Jean-Michel. Wavelets: Time-Frequency Methods and Phase Space. Berlin, Heidelberg: Springer Berlin Heidelberg, 1989.

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5

Deng, Wei. Time Multiplexed Beam-Forming with Space-Frequency Transformation. New York, NY: Springer New York, 2013.

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6

Deng, Wei, Reza Mahmoudi y Arthur H. M. van Roermund. Time Multiplexed Beam-Forming with Space-Frequency Transformation. New York, NY: Springer New York, 2013. http://dx.doi.org/10.1007/978-1-4614-5046-7.

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7

Goldblatt, Robert. Orthogonality and spacetime geometry. New York: Springer-Verlag, 1987.

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8

Time-frequency analysis and synthesis of linear signal spaces: Time-frequency filters, signal detection and estimation, and range-Doppler estimation. Boston: Kluwer Academic Publishers, 1998.

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9

Swain, A. K. Weighted complex orthogonal estimator for identifying linear and nonlinear continuous time models from generalised frequency response functions. Sheffield: University of Sheffield, Dept. of Automatic Control and Systems Engineering, 1995.

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10

K, Brodzik Andrzej y Tolimieri Richard 1940-, eds. Ideal sequence design in time-frequency space: Applications to radar, sonar, and communication systems. Boston, Mass: Birkhäuser, 2009.

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11

Sydnor, Richard L. 22nd Annual Precise Time and Time Interval (PTTI) Applications and Planning Meeting: Proceedings of a meeting sponsored by the U.S. Naval Observatory, the NASA Goddard Space Flight Center, the Space and Naval Warfare Systems Command...[et al.] and held at the Sheraton Premiere Hotel, Vienna, Virginia, December 4-6, 1990. Editado por Goddard Space Flight Center, U.S. Space and Naval Warfare Systems Command, United States Naval Observatory y Annual Precise Time and Time Interval (PTTI) Applications and Planning Meeting (22nd : 1990 : Vienna, Virginia). Greenbelt, Md: Goddard Space Flight Center, 1991.

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12

European Frequency and Time Forum (6th 1992 Noordwijk, Netherlands). Proceedings of the 6th European Frequency and Time Forum: Noordwijk, the Netherlands, 17-19 March 1992. Paris, France: European Space Agency, 1992.

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13

1941-, Combes J. M., Grossmann A. 1930- y Tchamitchian Philippe, eds. Wavelets: Time-frequency methods and phase space : proceedings of the international conference, Marseille, France, December 14-18, 1987. Berlin: Springer-Verlag, 1989.

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14

1941-, Combes J. M., Grossmann A. 1930- y Tchamitchian Philippe, eds. Wavelets: Time-frequency methods and phase space : proceedings of the international conference, Marseille, France, December 14-18, 1987. 2a ed. Berlin: Springer-Verlag, 1990.

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15

Sydnor, Richard L. 23rd Annual Precise Time and Time Interval (PTTI) Applications and Planning Meeting: Proceedings of a meeting sponsored by the U.S. Naval Observatory, the NASA Goddard Space Flight Center, the Jet Propulsion Laboratory ...[et al.] and held at the Ritz-Carlton Huntington Hotel, Pasadena, California, December 3-5, 1991. Editado por Goddard Space Flight Center, Jet Propulsion Laboratory (U.S.), United States Naval Observatory y Annual Precise Time and time Interval (PTTI) Applications and Planning Meeting (23rd : 1991 : Pasadena, Calif.). Greenbelt, Md: Goddard Space Flight Center, 1992.

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16

Ninul, Anatolij Sergeevič. Tensor Trigonometry. Moscow, Russia: Fizmatlit Publisher, 2021.

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17

Ninul, Anatolij Sergeevič. Tenzornaja trigonometrija: Teorija i prilozenija / Theory and Applications /. Moscow, Russia: Mir Publisher, 2004.

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18

Prasad, Ramjee y Suvra Sekhar Das. Orthogonal Time Frequency Space Modulation: A Waveform For 6G. River Publishers, 2021.

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19

Prasad, Ramjee y Suvra Sekhar Das. Orthogonal Time Frequency Space Modulation: OTFS a Waveform For 6G. River Publishers, 2022.

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20

Prasad, Ramjee y Suvra Sekhar Das. Orthogonal Time Frequency Space Modulation: OTFS a Waveform For 6G. River Publishers, 2022.

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21

Orthogonal Time Frequency Space Modulation: OTFS a Waveform For 6G. River Publishers, 2021.

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22

Prasad, Ramjee y Suvra Sekhar Das. Orthogonal Time Frequency Space Modulation: OTFS a Waveform For 6G. River Publishers, 2022.

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23

Ganesan, Girish. Designing Space-Time Codes Using Orthogonal Designs. Uppsala Universitet, 2002.

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24

Seberry, Jennifer, Alfred Mertins, Le Chung Tran y Tadeusz A. Wysocki. Complex Orthogonal Space-Time Processing in Wireless Communications. Springer, 2006.

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25

Mertins, Alfred, Le Chung Tran, Tadeusz A. Wysocki y Jennifer Seberry. Complex Orthogonal Space-Time Processing in Wireless Communications. Springer, 2007.

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26

The Clockwork Rocket Orthogonal. Orion Publishing Co, 2012.

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27

Ideal Sequence Design in Time-Frequency Space. Boston: Birkhäuser Boston, 2009. http://dx.doi.org/10.1007/978-0-8176-4738-4.

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28

The Arrows of Time: Orthogonal Book Three. Gollancz, 2013.

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29

Egan, Greg. The Clockwork Rocket: Orthogonal Book One. Night Shade, 2012.

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30

Roermund, Arthur H. M. van, Wei Deng y Reza Mahmoudi. Time Multiplexed Beam-Forming with Space-Frequency Transformation. Springer, 2012.

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31

Arthur H. M. van Roermund, Wei Deng, Reza Mahmoudi y Arthur H. M. Roermund. Time Multiplexed Beam-Forming with Space-Frequency Transformation. Springer New York, 2016.

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32

Beres, Elzbieta. Blind channel estimation for orthogonal space-time block codes in MISO systems. 2004.

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33

Kajita, Masatoshi. Measuring Time: Frequency measurements and related developments in physics. Institute of Physics Publishing, 2018.

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34

Kajita, Masatoshi. Measuring Time: Frequency Measurements and Related Developments In Physics. Iop Publishing Ltd, 2018.

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35

Goldblatt, Robert. Orthogonality and Spacetime Geometry. Springer, 2012.

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36

(Editor), Jean-Michel Combes, Alexander Grossmann (Editor) y Philippe Tchamitchian (Editor), eds. Wavelets: Time-Frequency Methods and Phase Space (inverse problems and theoretical imaging). 2a ed. Springer, 1992.

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37

Brodzik, Andrzej K., Myoung An y Richard Tolimieri. Ideal Sequence Design in Time-Frequency Space: Applications to Radar, Sonar, and Communication Systems. Springer London, Limited, 2008.

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38

Tchamitchian, Philippe, Alexander Grossmann y Jean-Michel Combes. Wavelets: Time-Frequency Methods and Phase Space Proceedings of the International Conference, Marseille, France, December 14-18 1987. Springer London, Limited, 2012.

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39

M, Combes J., Grossmann A y Tchamitchian Philippe, eds. Wavelets: Time-frequency methods and phase space : proceedings of the international conference, Marseille, France, December 14-18, 1987. 2a ed. Berlin: Springer-Verlag, 1990.

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40

al, et y J. Combes. Wavelets: Time-Frequency Methods and Phase Space. Proceedings of the International Conference, Marseille, France, December 14-18, 1987. Springer-Verlag Berlin and Heidelberg GmbH & Co. KG, 1989.

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41

Advanced Signal Processing on Event-Related Potentials: Filtering Erps in Time, Frequency and Space Domains Sequentially and Simultaneously. World Scientific Publishing Co Pte Ltd, 2015.

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42

Combes, J. M. Wavelets: Time-Frequency Methods and Phase Space : Proceedings of the International Conference, Marseille, France, December 14-18, 1987 (Inverse Pro). Springer-Verlag, 1991.

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43

Combes, J. M. Wavelets: Time-Frequency Methods and Phase Space. Proceedings of the International Conference, Marseille, France, December 14-18 (Monographs on Endocrinology). Springer, 1989.

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44

Akemann, Gernot. Random matrix theory and quantum chromodynamics. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198797319.003.0005.

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This chapter was originally presented to a mixed audience of physicists and mathematicians with some basic working knowledge of random matrix theory. The first part is devoted to the solution of the chiral Gaussian unitary ensemble in the presence of characteristic polynomials, using orthogonal polynomial techniques. This includes all eigenvalue density correlation functions, smallest eigenvalue distributions, and their microscopic limit at the origin. These quantities are relevant for the description of the Dirac operator spectrum in quantum chromodynamics with three colors in four Euclidean space-time dimensions. In the second part these two theories are related based on symmetries, and the random matrix approximation is explained. In the last part recent developments are covered, including the effect of finite chemical potential and finite space-time lattice spacing, and their corresponding orthogonal polynomials. This chapter also provides some open random matrix problems.
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45

Johnston, Richard. Survey Methodology. Editado por Janet M. Box-Steffensmeier, Henry E. Brady y David Collier. Oxford University Press, 2009. http://dx.doi.org/10.1093/oxfordhb/9780199286546.003.0016.

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This article addresses three dimensions for data collection: mode, space, and time. It considers the problems of adequately representing persons by ensuring high response rates and measuring opinions validly and reliably through the design of high-quality questions. The advent of the internet and the World Wide Web is dramatically expanding the repertoire for survey research. The evidence suggests that the forces driving response rate down are largely orthogonal to substantive political choices. Surveys overrepresent political interest and its correlates and so may replicate class and other barriers to political participation.
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46

Santillán LIma, Juan Carlos, Nestor Augusto Estrada Brito, Santiago Israel Logroño Naranjo y José Hernán Negrete Costales. EVALUACIÓN DEL RENDIMIENTO DE ACCESO MÚLTIPLE NO-ORTOGONAL (NOMA) EN SISTEMAS LTE (LONG TERM EVOLUTION). Editado por Fernando TIverio Molina Granja. I2D Editorial Académica, 2022. http://dx.doi.org/10.55204/i2d.4.

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Debido a la creciente demanda de datos a través de las redes móviles, se están considerando nuevas técnicas que incrementen la eficiencia espectral. El acceso múltiple no-ortogonal (Non-Orthogonal Multiple Access, NOMA) es una de las técnicas que están siendo evaluadas dentro del 3GPP (Third Generation Partnership Project). NOMA, también conocida como LDM (Layered-Division-Multiplexing), proporciona servicios a múltiples usuarios mediante multiplexación en potencia. Debido la utilización del 100% del tiempo y ancho de banda del sistema mediante el uso de esta técnica, se espera conseguir una mayor eficiencia espectral que las tecnologías de acceso múltiple ortogonales convencionales TDM (Time Division Multiplexing) o FDM (Frequency Division Multiplexing). Esta ganancia ya ha sido demostrada en el nuevo estándar de televisión digital terrestre ATSC (Advanced Television Systems Committee), ATSC 3.0. En este trabajo se evaluará la utilización de NOMA en sistemas LTE (Long Term Evolution) mediante simulaciones de capa física, y se compararán las ganancias obtenidas con las publicadas en la bibliografía de ATSC 3.0. Así también se hace una revisión de las aplicaciones de la telefonía celular, principalmente de LTE en la seguridad industrial.
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47

Mann, Peter. Classical Electromagnetism. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198822370.003.0027.

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In this chapter, Noether’s theorem as a classical field theory is presented and the properties of variations are again discussed for fields (i.e. field variations, space variations, time variations, spacetime variations), resulting in the Noether condition. Quasisymmetries and spontaneous symmetry breaking are discussed, as well as local symmetry and global symmetry. Following these definitions, Noether’s first theorem and Noether’s second theorem are developed. The classical Schrödinger field is investigated and the key equations of classical mechanics are summarised into a single Lagrangian. Symmetry properties of the field action and equations of motion are then compared. The chapter discusses the energy–momentum tensor, the Klein–Utiyama theorem, the Liouville equation and the Hamilton–Jacobi equation. It also discusses material science, special orthogonal groups and complex scalar fields.
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48

Shapiro, Kimron y Simon Hanslmayr. The Role of Brain Oscillations in the Temporal Limits of Attention. Editado por Anna C. (Kia) Nobre y Sabine Kastner. Oxford University Press, 2014. http://dx.doi.org/10.1093/oxfordhb/9780199675111.013.037.

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Attention is the ubiquitous construct referring to the ability of the brain to focus resources on a subset of perceptual input which it is trying to process for a response. Attention has for a long time been studied with reference to its distribution across space where, for example, visual input from an attentionally monitored location is given preference over non-monitored (i.e. attended) locations. More recently, attention has been studied for its ability to select targets from among rapidly, sequentially presented non-targets at a fixed location, e.g. in visual space. The present chapter explores this latter function of attention for its relevance to behaviour. In so doing, it highlights what is becoming one of the most popular approaches to studying communication across the brain—oscillations—at various frequency ranges. In particular the authors discuss the alpha frequency band (8–12 Hz), where recent evidence points to an important role in the switching between processing external vs. internal events.
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49

Isett, Philip. Structure of the Book. Princeton University Press, 2017. http://dx.doi.org/10.23943/princeton/9780691174822.003.0002.

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This chapter provides an overview of the book's structure. Section 3 deals with the error terms which need to be controlled, whereas Part III explains some notation of the book and presents a basic construction of the correction. The goal is to clarify how the scheme can be used to construct Hölder continuous weak solutions—continuous in space and time—to the incompressible Euler equations that fail to conserve energy. Part IV shows how to iterate the construction of Part III to obtain continuous solutions to the Euler equations. It then discusses the concept of frequency energy levels, along with the Main Lemma. It also highlights some additional difficulties which arise as one approaches the optimal regularity and illustrates how these difficulties can be overcome. Parts V–VII verify all the estimates needed for the proof of the Main Lemma.
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50

Tibaldi, Stefano y Franco Molteni. Atmospheric Blocking in Observation and Models. Oxford University Press, 2018. http://dx.doi.org/10.1093/acrefore/9780190228620.013.611.

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The atmospheric circulation in the mid-latitudes of both hemispheres is usually dominated by westerly winds and by planetary-scale and shorter-scale synoptic waves, moving mostly from west to east. A remarkable and frequent exception to this “usual” behavior is atmospheric blocking. Blocking occurs when the usual zonal flow is hindered by the establishment of a large-amplitude, quasi-stationary, high-pressure meridional circulation structure which “blocks” the flow of the westerlies and the progression of the atmospheric waves and disturbances embedded in them. Such blocking structures can have lifetimes varying from a few days to several weeks in the most extreme cases. Their presence can strongly affect the weather of large portions of the mid-latitudes, leading to the establishment of anomalous meteorological conditions. These can take the form of strong precipitation episodes or persistent anticyclonic regimes, leading in turn to floods, extreme cold spells, heat waves, or short-lived droughts. Even air quality can be strongly influenced by the establishment of atmospheric blocking, with episodes of high concentrations of low-level ozone in summer and of particulate matter and other air pollutants in winter, particularly in highly populated urban areas.Atmospheric blocking has the tendency to occur more often in winter and in certain longitudinal quadrants, notably the Euro-Atlantic and the Pacific sectors of the Northern Hemisphere. In the Southern Hemisphere, blocking episodes are generally less frequent, and the longitudinal localization is less pronounced than in the Northern Hemisphere.Blocking has aroused the interest of atmospheric scientists since the middle of the last century, with the pioneering observational works of Berggren, Bolin, Rossby, and Rex, and has become the subject of innumerable observational and theoretical studies. The purpose of such studies was originally to find a commonly accepted structural and phenomenological definition of atmospheric blocking. The investigations went on to study blocking climatology in terms of the geographical distribution of its frequency of occurrence and the associated seasonal and inter-annual variability. Well into the second half of the 20th century, a large number of theoretical dynamic works on blocking formation and maintenance started appearing in the literature. Such theoretical studies explored a wide range of possible dynamic mechanisms, including large-amplitude planetary-scale wave dynamics, including Rossby wave breaking, multiple equilibria circulation regimes, large-scale forcing of anticyclones by synoptic-scale eddies, finite-amplitude non-linear instability theory, and influence of sea surface temperature anomalies, to name but a few. However, to date no unique theoretical model of atmospheric blocking has been formulated that can account for all of its observational characteristics.When numerical, global short- and medium-range weather predictions started being produced operationally, and with the establishment, in the late 1970s and early 1980s, of the European Centre for Medium-Range Weather Forecasts, it quickly became of relevance to assess the capability of numerical models to predict blocking with the correct space-time characteristics (e.g., location, time of onset, life span, and decay). Early studies showed that models had difficulties in correctly representing blocking as well as in connection with their large systematic (mean) errors.Despite enormous improvements in the ability of numerical models to represent atmospheric dynamics, blocking remains a challenge for global weather prediction and climate simulation models. Such modeling deficiencies have negative consequences not only for our ability to represent the observed climate but also for the possibility of producing high-quality seasonal-to-decadal predictions. For such predictions, representing the correct space-time statistics of blocking occurrence is, especially for certain geographical areas, extremely important.
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