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Técnicas de Investigación Operativa en Ingeniería Técnicas de Investigación Operativa en Ingeniería

Description

El curso trata de mostrar una visión amplia de las técnicas que se recogen bajo la denominación de Investigación Operativa (IO), agrupándolas en tres grandes bloques (métodos deterministas, métodos probabilísticos y otros métodos como simulación, toma de decisiones, participación pública). Dentro de cada bloque se expone brevemente en qué consiste cada método y se acompaña con ejemplos y ejercicios de aplicación. El curso trata de mostrar una visión amplia de las técnicas que se recogen bajo la denominación de Investigación Operativa (IO), agrupándolas en tres grandes bloques (métodos deterministas, métodos probabilísticos y otros métodos como simulación, toma de decisiones, participación pública). Dentro de cada bloque se expone brevemente en qué consiste cada método y se acompaña con ejemplos y ejercicios de aplicación.

Subjects

Precio sombra | Precio sombra | Programación entera | Programación entera | Algoritmos genéticos | Algoritmos genéticos | Grafos | Grafos | Procesos aleatorios | Procesos aleatorios | Subgrafo | Subgrafo | Métodos heurísticos | Métodos heurísticos | Matriz estocástica | Matriz estocástica | Función objetivo | Función objetivo | Recurrencia | Recurrencia | Rango de optimalidad | Rango de optimalidad | Problema de rutas | Problema de rutas | PERT | PERT | Información | Información | Restricciones | Restricciones | Simulación | Simulación | Comunidades de opinión | Comunidades de opinión | Método Promethee | Método Promethee | Función de energía | Función de energía | Combinatoria | Combinatoria | Métodos de optimización | Métodos de optimización | Coste fijo | Coste fijo | Teorema de Arrow | Teorema de Arrow | Programación dinámica | Programación dinámica | Monte ideal | Monte ideal | Muestreador de Gibbs | Muestreador de Gibbs | Minimax | Minimax | Riesgo | Riesgo | Métodos de inteligencia artificial | Métodos de inteligencia artificial | Problema de recubrimiento | Problema de recubrimiento | Estacionariedad | Estacionariedad | Método Electre | Método Electre | Redes | Redes | Grafo árbol | Grafo árbol | Modelos deterministas | Modelos deterministas | Forestal | Forestal | Gestión | Gestión | Camino más corto | Camino más corto | Métodos determinísticos | Métodos determinísticos | Solución óptima | Solución óptima | Simplex | Simplex | Problema de la mochila | Problema de la mochila | Métodos estadísticos | Métodos estadísticos | Conocimiento | Conocimiento | Función de valor | Función de valor | Asignación | Asignación | Protoagentes | Protoagentes | Métodos meta-heurísticos | Métodos meta-heurísticos | Indicadores | Indicadores | Multigrafo | Multigrafo | Investigación de operaciones | Investigación de operaciones | Matriz de adyacencia | Matriz de adyacencia | Flujo | Flujo | Algoritmo de Floyd-Warshall | Algoritmo de Floyd-Warshall | Optimización | Optimización | Región factible | Región factible | Mercado de trabajo | Mercado de trabajo | Tabu-search | Tabu-search | Sistemas complejos | Sistemas complejos | Utilidad | Utilidad | Multiatributo | Multiatributo | Simulated annealing | Simulated annealing | Bucle | Bucle | Algoritmos enumerativos | Algoritmos enumerativos | Probabilidad de transición | Probabilidad de transición | Tasa de transición | Tasa de transición | Modelos de decisión | Modelos de decisión | Cadena homogénea | Cadena homogénea | Espacio de estados | Espacio de estados | Tiempo de vida | Tiempo de vida | Colas | Colas | Sostenibilidad | Sostenibilidad | Organización estratégica | Organización estratégica | Árbol de decisión | Árbol de decisión | Decisiones colectivas | Decisiones colectivas | Preferencias | Preferencias | Maximin | Maximin | Diagrama de estados | Diagrama de estados | Problema de la diligencia | Problema de la diligencia | Modelos probabilísticos | Modelos probabilísticos | Métodos de superclasificación | Métodos de superclasificación | Problema de asignación | Problema de asignación | Nodos | Nodos | Función de supervivencia | Función de supervivencia | Ecuaciones de Chapman-Kolmogorov | Ecuaciones de Chapman-Kolmogorov | Formulación de funciones | Formulación de funciones | Grafo completo | Grafo completo | Valoración de alternativas | Valoración de alternativas | Riesgo de la decisión | Riesgo de la decisión | Curva de la bañera | Curva de la bañera | Distribución exponencial | Distribución exponencial | Programación no lineal | Programación no lineal | Técnicas de optimización | Técnicas de optimización | Método GRASP | Método GRASP | Algoritmo de Dijskstra | Algoritmo de Dijskstra | Métodos monetarios | Métodos monetarios | Proceso de Poisson | Proceso de Poisson | Suma de variables aleatorias | Suma de variables aleatorias | Control de proyectos | Control de proyectos | Problema de emparejamiento | Problema de emparejamiento | Procesos estocásticos | Procesos estocásticos | Problema de partición | Problema de partición | Estructuración jerárquica | Estructuración jerárquica | Problema de empaquetado | Problema de empaquetado | Toma de decisiones | Toma de decisiones | Investigación operativa | Investigación operativa | Grafo etiquetado | Grafo etiquetado | Fiabilidad | Fiabilidad | Tasa de fallos | Tasa de fallos | Markov | Markov | Problema del viajante | Problema del viajante | Análisis de sensibilidad | Análisis de sensibilidad | Programación lineal | Programación lineal | Multicriterio | Multicriterio | Problema del transporte | Problema del transporte

License

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14.02 Principles of Macroeconomics (MIT) 14.02 Principles of Macroeconomics (MIT)

Description

This course provides an overview of the following macroeconomic issues: the determination of output, employment, unemployment, interest rates, and inflation. Monetary and fiscal policies are discussed, as are public debt and international economic issues. This course also introduces basic models of macroeconomics and illustrates principles with the experience of the United States and other economies. This course provides an overview of the following macroeconomic issues: the determination of output, employment, unemployment, interest rates, and inflation. Monetary and fiscal policies are discussed, as are public debt and international economic issues. This course also introduces basic models of macroeconomics and illustrates principles with the experience of the United States and other economies.

Subjects

macroeconomics | macroeconomics | economics | economics | output | output | employment | employment | determination | determination | unemployment | unemployment | interest rates | interest rates | Federal Reserve | Federal Reserve | inflation | inflation | monetary policy | monetary policy | fiscal policy | fiscal policy | public debt | public debt | international economics | international economics | goods market | goods market | market | market | financial markets | financial markets | open economy | open economy | exchange rate | exchange rate | labor market | labor market | phillips curve | phillips curve | growth | growth | Solow's model | Solow's model | MACROECONOMICS | MACROECONOMICS | ECONOMICS | ECONOMICS | OUTPUT | OUTPUT | Macroeconomics | Macroeconomics | EMPLOYMENT | EMPLOYMENT | DETERMINATION | DETERMINATION | UNEMPLOYMENT | UNEMPLOYMENT | INTEREST RATES | INTEREST RATES | FEDERAL RESERVE | FEDERAL RESERVE | INFLATION | INFLATION | MONETARY POLICY | MONETARY POLICY | FISCAL POLICY | FISCAL POLICY | PUBLIC DEBT | PUBLIC DEBT | INTERNATIONAL ECONOMICS | INTERNATIONAL ECONOMICS | GOODS MARKET | GOODS MARKET | MARKET | MARKET | FINANCIAL MARKETS | FINANCIAL MARKETS | OPEN ECONOMY | OPEN ECONOMY | EXCHANGE RATE | EXCHANGE RATE | LABOR MARKET | LABOR MARKET | PHILLIPS CURVE | PHILLIPS CURVE | GROWTH | GROWTH | SOLOW'S MODEL | SOLOW'S MODEL | Economics | Economics | Output | Output | Employment | Employment | Determination | Determination | Unemployment | Unemployment | Interest Rates | Interest Rates | Inflation | Inflation | Monetary Policy | Monetary Policy | Fiscal Policy | Fiscal Policy | Public Debt | Public Debt | International Economics | International Economics | Goods Market | Goods Market | Market | Market | Financial Markets | Financial Markets | Open Economy | Open Economy | Exchange Rate | Exchange Rate | Labor Market | Labor Market | Phillips Curve | Phillips Curve | Growth | Growth | Solow's Model | Solow's Model

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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Geometría Gráfica Informática en Arquitectura I Geometría Gráfica Informática en Arquitectura I

Description

Teoría geométrica del objeto arquitectónico con herramientas informáticas. Esta asignatura se ocupa del estudio de las formas espaciales relacionadas con la arquitectura y de su representación, mediante el uso de los medios informáticos. Puede considerarse, en parte, como una profundización y ampliación de los conocimientos adquiridos por el alumno en Geometría Descriptiva; por otro lado, supone la aplicación, según los medios informáticos, de conceptos referentes a la expresión gráfica aprendidos en otras asignaturas de este mismo Área. Teoría geométrica del objeto arquitectónico con herramientas informáticas. Esta asignatura se ocupa del estudio de las formas espaciales relacionadas con la arquitectura y de su representación, mediante el uso de los medios informáticos. Puede considerarse, en parte, como una profundización y ampliación de los conocimientos adquiridos por el alumno en Geometría Descriptiva; por otro lado, supone la aplicación, según los medios informáticos, de conceptos referentes a la expresión gráfica aprendidos en otras asignaturas de este mismo Área.

Subjects

Bóveda | Bóveda | Expresión Gráfica en la Ingeniería | Expresión Gráfica en la Ingeniería | Módulo | Módulo | 3D network | 3D network | Laboratorios Jorba | Laboratorios Jorba | Modelado | Modelado | Extrusión | Extrusión | Construcciones Arquitectónicas | Construcciones Arquitectónicas | Red plana | Red plana | Mezquita Mihrimah | Mezquita Mihrimah | Orden toscano | Orden toscano | Dome | Dome | Platonic solids | Platonic solids | Dibujo | Dibujo | Booleana | Booleana | Graphic | Graphic | Solid | Solid | Dibujo 3D | Dibujo 3D | Arquitecto | Arquitecto | Architect | Architect | Poliedros semirregulares | Poliedros semirregulares | Hiperboloides | Hiperboloides | Polyhedron | Polyhedron | NURBS | NURBS | Render | Render | Malla | Malla | Computing | Computing | Ermita de la Virgen del Puerto | Ermita de la Virgen del Puerto | Surface | Surface | Particiones | Particiones | Historia del Arte | Historia del Arte | Poliedros regulares | Poliedros regulares | Red 3D | Red 3D | Choisy | Choisy | Axonometric | Axonometric | Network | Network | Pattern | Pattern | Geométrico | Geométrico | Mosque | Mosque | Spatial | Spatial | Sinan | Sinan | Red | Red | 3D | 3D | Form | Form | Perspectiva | Perspectiva | Ordenador | Ordenador | Ismael Garcia Rios | Ismael Garcia Rios | Lacería | Lacería | Paraboloides | Paraboloides | Axonometría | Axonometría | Souto de Moura | Souto de Moura | Revolve | Revolve | Kingo Houses | Kingo Houses | Santa María del Naranco | Santa María del Naranco | Pedro de Ribera | Pedro de Ribera | Regular tessellations | Regular tessellations | Expresión Gráfica Arquitectónica | Expresión Gráfica Arquitectónica | Architecture | Architecture | Molina de Aragón | Molina de Aragón | Tessellations | Tessellations | Ponte de Lima | Ponte de Lima | Arabesco | Arabesco | compactación | compactación | Pantheon | Pantheon | Computer | Computer | Eduardo Torroja | Eduardo Torroja | Fernández del Amo | Fernández del Amo | Ribbed vault | Ribbed vault | Organic architecture | Organic architecture | Superficie cuádrica | Superficie cuádrica | Arquitectura | Arquitectura | Miguel Fisac | Miguel Fisac | Crecimiento orgánico | Crecimiento orgánico | Autocad | Autocad | Symmetrical polyhedra | Symmetrical polyhedra | Rhinoceros | Rhinoceros | Domical vault | Domical vault | Templete de los Evangelistas | Templete de los Evangelistas | Gráfica | Gráfica | Luigi Canina | Luigi Canina | MicroStation | MicroStation | Irregular tessellations | Irregular tessellations | Patio de los Evangelistas | Patio de los Evangelistas | Composición Arquitectónica | Composición Arquitectónica | Sabil | Sabil | Modelling | Modelling | quadric surface | quadric surface | Mesh | Mesh | Panteón | Panteón | Monasterio de El Escorial | Monasterio de El Escorial | Superficie | Superficie | Tunnel vault | Tunnel vault | Vegaviana | Vegaviana | Iglesia Santos Apóstoles | Iglesia Santos Apóstoles | Proyectos Arquitectónicos | Proyectos Arquitectónicos | Parabólicos | Parabólicos | Geometry | Geometry | Carmen Garcia Reig | Carmen Garcia Reig | Expression | Expression | Cuba hiperbólica | Cuba hiperbólica | Red espacial | Red espacial | Geometría | Geometría | skeletal polyhedra | skeletal polyhedra | Bóveda de rincón de claustro | Bóveda de rincón de claustro | Sólido | Sólido | Poliedros platónicos | Poliedros platónicos | Hiperbólicos | Hiperbólicos | Perspective | Perspective | Mimbar | Mimbar | Fedala | Fedala | Furniture | Furniture | Polygon | Polygon | Hyperbolic | Hyperbolic | Bóveda de arista | Bóveda de arista | Revolución | Revolución | Cúpula | Cúpula | Bóveda de cañón | Bóveda de cañón | Estructura | Estructura | Expresión | Expresión | Computer aided design | Computer aided design | Informática | Informática | Hollow faced polyhedra | Hollow faced polyhedra | Flexible | Flexible | Geometric | Geometric | CAD | CAD | Formas | Formas | Bóveda de crucería | Bóveda de crucería | Infografía | Infografía | Polyhedra | Polyhedra | Groin vault | Groin vault | Plane | Plane | Architectural | Architectural | Plano | Plano | Structure | Structure | Architectural drawing | Architectural drawing | Arquitectónica | Arquitectónica | Barrel vault | Barrel vault | Arabesque | Arabesque | Sombra | Sombra | Utzon | Utzon | Escher | Escher | Mueble | Mueble | Vault | Vault | Annular vault | Annular vault | Egipto | Egipto | Polígono | Polígono | Archimedean solids | Archimedean solids | Poliedros arquimedianos | Poliedros arquimedianos | Egypt | Egypt | Paraboloid | Paraboloid | Module | Module | Extrude | Extrude | Boolean | Boolean | Tuscan Order | Tuscan Order | Hyperboloid | Hyperboloid | Poliedros vacuus | Poliedros vacuus

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Geometría Gráfica Informática en Arquitectura II Geometría Gráfica Informática en Arquitectura II

Description

La asignatura trata de la profundización en el estudio geométrico con medios informáticos del hecho arquitectónico, considerado globalmente desde su complejidad espacial, compositiva, constructiva y estructural. La asignatura trata de la profundización en el estudio geométrico con medios informáticos del hecho arquitectónico, considerado globalmente desde su complejidad espacial, compositiva, constructiva y estructural.

Subjects

Bóveda | Bóveda | Patio de los Reyes | Patio de los Reyes | Expresión Gráfica en la Ingeniería | Expresión Gráfica en la Ingeniería | Módulo | Módulo | 3D network | 3D network | Andrea Palladio | Andrea Palladio | Modelado | Modelado | Extrusión | Extrusión | Construcciones Arquitectónicas | Construcciones Arquitectónicas | Dome | Dome | Tracery | Tracery | Rothwell – Northamptonshire | Rothwell – Northamptonshire | Los Manantiales | Los Manantiales | Dibujo | Dibujo | Paraboloid | Paraboloid | Graphic | Graphic | Solid | Solid | Dibujo 3D | Dibujo 3D | Arquitecto | Arquitecto | Architect | Architect | Hiperboloides | Hiperboloides | geodesic dome | geodesic dome | Render | Render | Malla | Malla | Computing | Computing | Catedral de León | Catedral de León | Surface | Surface | Historia del Arte | Historia del Arte | Red 3D | Red 3D | Gráfica | Gráfica | Geométrico | Geométrico | Spatial | Spatial | Red | Red | 3D | 3D | Form | Form | Hiperbólicos | Hiperbólicos | Ordenador | Ordenador | Ismael Garcia Rios | Ismael Garcia Rios | Booleana | Booleana | Paraboloides | Paraboloides | Axonometría | Axonometría | Revolve | Revolve | NURBS | NURBS | Félix Candela | Félix Candela | Rascacielos | Rascacielos | Expresión Gráfica Arquitectónica | Expresión Gráfica Arquitectónica | Architecture | Architecture | Minerva Médica | Minerva Médica | Bars | Bars | Barajas | Barajas | Computer | Computer | Skycraper | Skycraper | Superficie cuádrica | Superficie cuádrica | Arquitectura | Arquitectura | Autocad | Autocad | San Vicente de Coyoacán | San Vicente de Coyoacán | Rhinoceros | Rhinoceros | El Escorial | El Escorial | MicroStation | MicroStation | Composición Arquitectónica | Composición Arquitectónica | Modelling | Modelling | quadric surface | quadric surface | Mesh | Mesh | joints | joints | Superficie | Superficie | Nudos | Nudos | Proyectos Arquitectónicos | Proyectos Arquitectónicos | Parabólicos | Parabólicos | Geometry | Geometry | Estructura parabólica | Estructura parabólica | Carmen Garcia Reig | Carmen Garcia Reig | Ventana Gótica | Ventana Gótica | Expression | Expression | Tunnel vault | Tunnel vault | Red espacial | Red espacial | Geometría | Geometría | Sólido | Sólido | Perspectiva | Perspectiva | Church | Church | Cathedral | Cathedral | Minerva Medica Temple | Minerva Medica Temple | Hyperbolic | Hyperbolic | Bóveda de arista | Bóveda de arista | Revolución | Revolución | Cúpula | Cúpula | Estructura | Estructura | Expresión | Expresión | Computer aided design | Computer aided design | Informática | Informática | Rose window | Rose window | Geometric | Geometric | CAD | CAD | Formas | Formas | Infografía | Infografía | Kenilworth Castle | Kenilworth Castle | Plane | Plane | Architectural | Architectural | Barras | Barras | Plano | Plano | Structure | Structure | Architectural drawing | Architectural drawing | Arquitectónica | Arquitectónica | T4 | T4 | Cúpula geodésica | Cúpula geodésica | Ribbed vault | Ribbed vault | Tracería | Tracería | Vault | Vault | Module | Module | Extrude | Extrude | Rosetón | Rosetón | Boolean | Boolean | Hyperboloid | Hyperboloid | Hypar | Hypar

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14.02 Principles of Macroeconomics (MIT)

Description

This course provides an overview of the following macroeconomic issues: the determination of output, employment, unemployment, interest rates, and inflation. Monetary and fiscal policies are discussed, as are public debt and international economic issues. This course also introduces basic models of macroeconomics and illustrates principles with the experience of the United States and other economies.

Subjects

macroeconomics | economics | output | employment | determination | unemployment | interest rates | Federal Reserve | inflation | monetary policy | fiscal policy | public debt | international economics | goods market | market | financial markets | open economy | exchange rate | labor market | phillips curve | growth | Solow's model | MACROECONOMICS | ECONOMICS | OUTPUT | Macroeconomics | EMPLOYMENT | DETERMINATION | UNEMPLOYMENT | INTEREST RATES | FEDERAL RESERVE | INFLATION | MONETARY POLICY | FISCAL POLICY | PUBLIC DEBT | INTERNATIONAL ECONOMICS | GOODS MARKET | MARKET | FINANCIAL MARKETS | OPEN ECONOMY | EXCHANGE RATE | LABOR MARKET | PHILLIPS CURVE | GROWTH | SOLOW'S MODEL | Economics | Output | Employment | Determination | Unemployment | Interest Rates | Inflation | Monetary Policy | Fiscal Policy | Public Debt | International Economics | Goods Market | Market | Financial Markets | Open Economy | Exchange Rate | Labor Market | Phillips Curve | Growth | Solow's Model

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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18.327 Wavelets, Filter Banks and Applications (MIT) 18.327 Wavelets, Filter Banks and Applications (MIT)

Description

Wavelets are localized basis functions, good for representing short-time events. The coefficients at each scale are filtered and subsampled to give coefficients at the next scale. This is Mallat's pyramid algorithm for multiresolution, connecting wavelets to filter banks. Wavelets and multiscale algorithms for compression and signal/image processing are developed. Subject is project-based for engineering and scientific applications. Wavelets are localized basis functions, good for representing short-time events. The coefficients at each scale are filtered and subsampled to give coefficients at the next scale. This is Mallat's pyramid algorithm for multiresolution, connecting wavelets to filter banks. Wavelets and multiscale algorithms for compression and signal/image processing are developed. Subject is project-based for engineering and scientific applications.

Subjects

Discrete-time filters | Discrete-time filters | convolution | convolution | Fourier transform | Fourier transform | owpass and highpass filters | owpass and highpass filters | Sampling rate change operations | Sampling rate change operations | upsampling and downsampling | upsampling and downsampling | ractional sampling | ractional sampling | interpolation | interpolation | Filter Banks | Filter Banks | time domain (Haar example) and frequency domain | time domain (Haar example) and frequency domain | conditions for alias cancellation and no distortion | conditions for alias cancellation and no distortion | perfect reconstruction | perfect reconstruction | halfband filters and possible factorizations | halfband filters and possible factorizations | Modulation and polyphase representations | Modulation and polyphase representations | Noble identities | Noble identities | block Toeplitz matrices and block z-transforms | block Toeplitz matrices and block z-transforms | polyphase examples | polyphase examples | Matlab wavelet toolbox | Matlab wavelet toolbox | Orthogonal filter banks | Orthogonal filter banks | paraunitary matrices | paraunitary matrices | orthogonality condition (Condition O) in the time domain | orthogonality condition (Condition O) in the time domain | modulation domain and polyphase domain | modulation domain and polyphase domain | Maxflat filters | Maxflat filters | Daubechies and Meyer formulas | Daubechies and Meyer formulas | Spectral factorization | Spectral factorization | Multiresolution Analysis (MRA) | Multiresolution Analysis (MRA) | requirements for MRA | requirements for MRA | nested spaces and complementary spaces; scaling functions and wavelets | nested spaces and complementary spaces; scaling functions and wavelets | Refinement equation | Refinement equation | iterative and recursive solution techniques | iterative and recursive solution techniques | infinite product formula | infinite product formula | filter bank approach for computing scaling functions and wavelets | filter bank approach for computing scaling functions and wavelets | Orthogonal wavelet bases | Orthogonal wavelet bases | connection to orthogonal filters | connection to orthogonal filters | orthogonality in the frequency domain | orthogonality in the frequency domain | Biorthogonal wavelet bases | Biorthogonal wavelet bases | Mallat pyramid algorithm | Mallat pyramid algorithm | Accuracy of wavelet approximations (Condition A) | Accuracy of wavelet approximations (Condition A) | vanishing moments | vanishing moments | polynomial cancellation in filter banks | polynomial cancellation in filter banks | Smoothness of wavelet bases | Smoothness of wavelet bases | convergence of the cascade algorithm (Condition E) | convergence of the cascade algorithm (Condition E) | splines | splines | Bases vs. frames | Bases vs. frames | Signal and image processing | Signal and image processing | finite length signals | finite length signals | boundary filters and boundary wavelets | boundary filters and boundary wavelets | wavelet compression algorithms | wavelet compression algorithms | Lifting | Lifting | ladder structure for filter banks | ladder structure for filter banks | factorization of polyphase matrix into lifting steps | factorization of polyphase matrix into lifting steps | lifting form of refinement equationSec | lifting form of refinement equationSec | Wavelets and subdivision | Wavelets and subdivision | nonuniform grids | nonuniform grids | multiresolution for triangular meshes | multiresolution for triangular meshes | representation and compression of surfaces | representation and compression of surfaces | Numerical solution of PDEs | Numerical solution of PDEs | Galerkin approximation | Galerkin approximation | wavelet integrals (projection coefficients | moments and connection coefficients) | wavelet integrals (projection coefficients | moments and connection coefficients) | convergence | convergence | Subdivision wavelets for integral equations | Subdivision wavelets for integral equations | Compression and convergence estimates | Compression and convergence estimates | M-band wavelets | M-band wavelets | DFT filter banks and cosine modulated filter banks | DFT filter banks and cosine modulated filter banks | Multiwavelets | Multiwavelets

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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22.106 Neutron Interactions and Applications (MIT) 22.106 Neutron Interactions and Applications (MIT)

Description

This course is a foundational study of the effects of single and multiple interactions on neutron distributions and their applications to problems across the Nuclear Engineering department - fission, fusion, and RST. Particle simulation methods are introduced to deal with complex processes that cannot be studied only experimentally or by numerical solutions of equations. Treatment will emphasize basic concepts and understanding, as well as showing the underlying scientific connections with current research areas. This course is a foundational study of the effects of single and multiple interactions on neutron distributions and their applications to problems across the Nuclear Engineering department - fission, fusion, and RST. Particle simulation methods are introduced to deal with complex processes that cannot be studied only experimentally or by numerical solutions of equations. Treatment will emphasize basic concepts and understanding, as well as showing the underlying scientific connections with current research areas.

Subjects

Neutron Interaction | Neutron Interaction | Neutron Elastic Scattering: Thermal Motion | Neutron Elastic Scattering: Thermal Motion | Chemical Binding Effects | Chemical Binding Effects | Particle Simulations I | Particle Simulations I | Monte Carlo Basics Monte Carlo in Statistical Physics and Radiation Transport | Monte Carlo Basics Monte Carlo in Statistical Physics and Radiation Transport | The Neutron Transport Equation | The Neutron Transport Equation | Neutron Slowing Down | Neutron Slowing Down | Neutron Diffusion | Neutron Diffusion | Particle Simulation Methods | Particle Simulation Methods | Basic Molecular Dynamics | Basic Molecular Dynamics | Direct Simulation of Melting | Direct Simulation of Melting | Multiscale Materials Modeling | Multiscale Materials Modeling | Thermal Neutron Scattering | Thermal Neutron Scattering | Dynamic Structure Factor in Neutron Inelastic Scattering | Dynamic Structure Factor in Neutron Inelastic Scattering

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21L.704 Studies in Poetry: 20th Century Irish Poetry: The Shadow of W. B. Yeats (MIT) 21L.704 Studies in Poetry: 20th Century Irish Poetry: The Shadow of W. B. Yeats (MIT)

Description

William Butler Yeats occupies a dominant position in the lives and work of the Irish poets who followed him. We will explore some of that poetry, and consider how later poets, especially female poets, tried to come to grips with, or escape from, that dominance. As a seminar, the subject will place special emphasis on student involvement and control. I will ask you to submit one ten-twelve page essay, two shorter (five page) essays, and to accept the role of "leadoff person," perhaps more than once, That role will demand that you choose from among the assigned readings for that session the poem we should focus upon, and to offer either a provocative articulation of what the poem is about, or a provocative question which the poem confronts, and which we should grapple with, as well. William Butler Yeats occupies a dominant position in the lives and work of the Irish poets who followed him. We will explore some of that poetry, and consider how later poets, especially female poets, tried to come to grips with, or escape from, that dominance. As a seminar, the subject will place special emphasis on student involvement and control. I will ask you to submit one ten-twelve page essay, two shorter (five page) essays, and to accept the role of "leadoff person," perhaps more than once, That role will demand that you choose from among the assigned readings for that session the poem we should focus upon, and to offer either a provocative articulation of what the poem is about, or a provocative question which the poem confronts, and which we should grapple with, as well.

Subjects

W. B. Yeats | W. B. Yeats | William Butler Yeats | William Butler Yeats | Irish poetry | Irish poetry | poetry | poetry | female poets | female poets | Patrick Kavanagh | Patrick Kavanagh | Louis MacNeice | Louis MacNeice | John Hewitt | John Hewitt | Richard Murphy | Richard Murphy | John Montague | John Montague | Seamus Heaney | Seamus Heaney | Michael Hartnett | Michael Hartnett | Derek Mahon | Derek Mahon | Paul Durcan | Paul Durcan | Paul Muldoon | Paul Muldoon | Ciaran Carson | Ciaran Carson | Paula Meehan | Paula Meehan | Medbh McGuckian | Medbh McGuckian | Boland | Boland | Rita Ann Higgins | Rita Ann Higgins | Cathleen ni Houlihan | Cathleen ni Houlihan | Nuala ni Dhomhnaill | Nuala ni Dhomhnaill | round table discussion | round table discussion | poetry discussion | poetry discussion | literary analysis | literary analysis

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22.106 Neutron Interactions and Applications (MIT) 22.106 Neutron Interactions and Applications (MIT)

Description

This course is intended to introduce the student to the concepts and methods of transport theory needed in neutron science applications. This course is a foundational study of the effects of multiple interactions on neutron distributions and their applications to problems across the Nuclear Engineering department. Stochastic and deterministic simulation techniques will be introduced to the students. This course is intended to introduce the student to the concepts and methods of transport theory needed in neutron science applications. This course is a foundational study of the effects of multiple interactions on neutron distributions and their applications to problems across the Nuclear Engineering department. Stochastic and deterministic simulation techniques will be introduced to the students.

Subjects

Neutron Interaction | Neutron Interaction | Neutron Elastic Scattering: Thermal Motion | Neutron Elastic Scattering: Thermal Motion | Chemical Binding Effects | Chemical Binding Effects | Particle Simulations I | Particle Simulations I | Monte Carlo Basics Monte Carlo in Statistical Physics and Radiation Transport | Monte Carlo Basics Monte Carlo in Statistical Physics and Radiation Transport | The Neutron Transport Equation | The Neutron Transport Equation | Neutron Slowing Down | Neutron Slowing Down | Neutron Diffusion | Neutron Diffusion | Particle Simulation Methods | Particle Simulation Methods | Basic Molecular Dynamics | Basic Molecular Dynamics | Direct Simulation of Melting | Direct Simulation of Melting | Multiscale Materials Modeling | Multiscale Materials Modeling | Thermal Neutron Scattering | Thermal Neutron Scattering | Dynamic Structure Factor in Neutron Inelastic Scattering | Dynamic Structure Factor in Neutron Inelastic Scattering

License

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21L.430 Popular Culture and Narrative: Serial Storytelling (MIT) 21L.430 Popular Culture and Narrative: Serial Storytelling (MIT)

Description

Serial Storytelling examines the ways the passing and unfolding of time structures narratives in a range of media. From Rembrandt's lifetime of self-portraits to The Wire, Charles Dickens' Pickwick Papers to contemporary journalism and reportage, we will focus on the relationships between popular culture and art, the problems of evaluation and audience, and the ways these works function within their social context. Serial Storytelling examines the ways the passing and unfolding of time structures narratives in a range of media. From Rembrandt's lifetime of self-portraits to The Wire, Charles Dickens' Pickwick Papers to contemporary journalism and reportage, we will focus on the relationships between popular culture and art, the problems of evaluation and audience, and the ways these works function within their social context.

Subjects

serial | serial | storytelling | storytelling | narrative | narrative | seriality | seriality | Tennyson | Tennyson | memoriam | memoriam | wire | wire | David Simon | David Simon | Rembrandt | Rembrandt | self-portraits | self-portraits | blackbird | blackbird | Wallace Stevens | Wallace Stevens | Omar | Omar | Auden | Auden | Goya | Goya | Disasters of War | Disasters of War | War | War | Hogarth | Hogarth | Superman | Superman | Myth of Superman | Myth of Superman | Myth of Sisyphus | Myth of Sisyphus | Myth of Fingerprints | Myth of Fingerprints | photography | photography | Muybridge | Muybridge | Edweard | Edweard | Edweird | Edweird | Leland Stanford | Leland Stanford | Camp Stanford | Camp Stanford | Duchamp | Duchamp | Nude Descending | Nude Descending | Nude Ascending | Nude Ascending | Nude Suspended | Nude Suspended | journalism | journalism | animals eating people | animals eating people | Orwell | Orwell | Art is Propaganda | Art is Propaganda | McLuhan | McLuhan | Elegy | Elegy | Mourning | Mourning | Morte D'Arthur | Morte D'Arthur | Epic | Epic | Dickens | Dickens | Pickwick | Pickwick | Bleak House | Bleak House | Sherlock | Sherlock | Holmes | Holmes | Slaughterhouse | Slaughterhouse | Literature | Literature | Murder | Murder | English Murder | English Murder | Portlandia | Portlandia | Battlestar Galactica | Battlestar Galactica | Spoiler Alert | Spoiler Alert | Downton Abbey | Downton Abbey | Downtown Abby | Downtown Abby | social game | social game | anime | anime | chaplin | chaplin | gold rush | gold rush | comics | comics | remediation | remediation | mediation | mediation | dismediation | dismediation | transmediation | transmediation | procedural | procedural

License

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6.867 Machine Learning (MIT) 6.867 Machine Learning (MIT)

Description

6.867 is an introductory course on machine learning which provides an overview of many techniques and algorithms in machine learning, beginning with topics such as simple perceptrons and ending up with more recent topics such as boosting, support vector machines, hidden Markov models, and Bayesian networks. The course gives the student the basic ideas and intuition behind modern machine learning methods as well as a bit more formal understanding of how and why they work. The underlying theme in the course is statistical inference as this provides the foundation for most of the methods covered.  6.867 is an introductory course on machine learning which provides an overview of many techniques and algorithms in machine learning, beginning with topics such as simple perceptrons and ending up with more recent topics such as boosting, support vector machines, hidden Markov models, and Bayesian networks. The course gives the student the basic ideas and intuition behind modern machine learning methods as well as a bit more formal understanding of how and why they work. The underlying theme in the course is statistical inference as this provides the foundation for most of the methods covered. 

Subjects

machine learning | machine learning | perceptrons | perceptrons | boosting | boosting | support vector machines | support vector machines | Markov | Markov | hidden Markov models | hidden Markov models | HMM | HMM | Bayesian networks | Bayesian networks | statistical inference | statistical inference | regression | regression | clustering | clustering | bias | bias | variance | variance | regularization | regularization | Generalized Linear Models | Generalized Linear Models | neural networks | neural networks | Support Vector Machine | Support Vector Machine | SVM | SVM | mixture models | mixture models | kernel density estimation | kernel density estimation | gradient descent | gradient descent | quadratic programming | quadratic programming | EM algorithm | EM algorithm | orward-backward algorithm | orward-backward algorithm | junction tree algorithm | junction tree algorithm | Gibbs sampling | Gibbs sampling

License

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12.480 Thermodynamics for Geoscientists (MIT) 12.480 Thermodynamics for Geoscientists (MIT)

Description

Principles of thermodynamics are used to infer the physical conditions of formation and modification of igneous and metamorphic rocks. It includes phase equilibria of homogeneous and heterogeneous systems and thermodynamic modelling of non-ideal crystalline solutions. It also surveys the processes that lead to the formation of metamorphic and igneous rocks in the major tectonic environments in the Earth's crust and mantle. Principles of thermodynamics are used to infer the physical conditions of formation and modification of igneous and metamorphic rocks. It includes phase equilibria of homogeneous and heterogeneous systems and thermodynamic modelling of non-ideal crystalline solutions. It also surveys the processes that lead to the formation of metamorphic and igneous rocks in the major tectonic environments in the Earth's crust and mantle.

Subjects

Principles of thermodynamics | Principles of thermodynamics | formation and modification of igneous and metamorphic rocks | formation and modification of igneous and metamorphic rocks | phase equilibria of homogeneous and heterogeneous systems | phase equilibria of homogeneous and heterogeneous systems | thermodynamic modelling of non-ideal crystalline solutions | thermodynamic modelling of non-ideal crystalline solutions | tectonic environments | tectonic environments | crust | crust | mantle | mantle | Ideal Solutions | Ideal Solutions | Non-ideal Solutions | Non-ideal Solutions | Pyroxene Thermometry | Pyroxene Thermometry | Plagioclase Feldspars Solution Models | Plagioclase Feldspars Solution Models | Alkali Feldspars Solution Models | Alkali Feldspars Solution Models | Multi-site Mineral Solutions | Multi-site Mineral Solutions | Homogeneous Equilibria | Homogeneous Equilibria | Quad | Quad | Spinels | Spinels | Rhombohedral Oxides | Rhombohedral Oxides | T-?O2 Relations | T-?O2 Relations | Heterogeneous Equilibria | Heterogeneous Equilibria | Multi-Component Systems | Multi-Component Systems | Liquidus Diagrams | Liquidus Diagrams | Schreinemaker's Analysis | Schreinemaker's Analysis | Composition Space | Composition Space | Gibbs Method | Gibbs Method | Silicate Melts | Silicate Melts | Mixed Volatile Equilibria P-T-XCO2-XH2O | Mixed Volatile Equilibria P-T-XCO2-XH2O | thermodynamic models | thermodynamic models | thermodynamics | thermodynamics

License

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12.480 Thermodynamics for Geoscientists (MIT) 12.480 Thermodynamics for Geoscientists (MIT)

Description

In this course, principles of thermodynamics are used to infer the physical conditions of formation and modification of igneous and metamorphic rocks. The course includes phase equilibria of homogeneous and heterogeneous systems and thermodynamic modeling of non-ideal crystalline solutions. It also surveys the processes that lead to the formation of metamorphic and igneous rocks in the major tectonic environments in the Earth's crust and mantle. In this course, principles of thermodynamics are used to infer the physical conditions of formation and modification of igneous and metamorphic rocks. The course includes phase equilibria of homogeneous and heterogeneous systems and thermodynamic modeling of non-ideal crystalline solutions. It also surveys the processes that lead to the formation of metamorphic and igneous rocks in the major tectonic environments in the Earth's crust and mantle.

Subjects

Principles of thermodynamics | Principles of thermodynamics | formation and modification of igneous and metamorphic rocks | formation and modification of igneous and metamorphic rocks | phase equilibria of homogeneous and heterogeneous systems | phase equilibria of homogeneous and heterogeneous systems | thermodynamic modelling of non-ideal crystalline solutions | thermodynamic modelling of non-ideal crystalline solutions | tectonic environments | tectonic environments | crust | crust | mantle | mantle | Ideal Solutions | Ideal Solutions | Non-ideal Solutions | Non-ideal Solutions | Pyroxene Thermometry | Pyroxene Thermometry | Plagioclase Feldspars Solution Models | Plagioclase Feldspars Solution Models | Alkali Feldspars Solution Models | Alkali Feldspars Solution Models | Multi-site Mineral Solutions | Multi-site Mineral Solutions | Homogeneous Equilibria | Homogeneous Equilibria | Quad | Quad | Spinels | Spinels | Rhombohedral Oxides | Rhombohedral Oxides | T-?O2 Relations | T-?O2 Relations | Heterogeneous Equilibria | Heterogeneous Equilibria | Multi-Component Systems | Multi-Component Systems | Liquidus Diagrams | Liquidus Diagrams | Schreinemaker's Analysis | Schreinemaker's Analysis | Composition Space | Composition Space | Gibbs Method | Gibbs Method | Silicate Melts | Silicate Melts | Mixed Volatile Equilibria P-T-XCO2-XH2O | Mixed Volatile Equilibria P-T-XCO2-XH2O | thermodynamic models | thermodynamic models | thermodynamics | thermodynamics

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6.152J Microelectronics Processing Technology (MIT) 6.152J Microelectronics Processing Technology (MIT)

Description

This course introduces the theory and technology of micro/nano fabrication. Lectures and laboratory sessions focus on basic processing techniques such as diffusion, oxidation, photolithography, chemical vapor deposition, and more. Through team lab assignments, students are expected to gain an understanding of these processing techniques, and how they are applied in concert to device fabrication. Students enrolled in this course have a unique opportunity to fashion and test micro/nano-devices, using modern techniques and technology. This course introduces the theory and technology of micro/nano fabrication. Lectures and laboratory sessions focus on basic processing techniques such as diffusion, oxidation, photolithography, chemical vapor deposition, and more. Through team lab assignments, students are expected to gain an understanding of these processing techniques, and how they are applied in concert to device fabrication. Students enrolled in this course have a unique opportunity to fashion and test micro/nano-devices, using modern techniques and technology.

Subjects

microelectronics | microelectronics | Microelectronics processing | Microelectronics processing | integrated circuits | vacuum | chemical vapor deposition | CVD | oxidation | diffusion | implantation | lithography | soft lithography | etching | sputtering | evaporation | interconnect | metallization | crystal growth | reliability | fabrication | processing | photolithography | physical vapor deposition | MOS | MOS capacitor | microcantilever | microfluidic | integrated circuits | vacuum | chemical vapor deposition | CVD | oxidation | diffusion | implantation | lithography | soft lithography | etching | sputtering | evaporation | interconnect | metallization | crystal growth | reliability | fabrication | processing | photolithography | physical vapor deposition | MOS | MOS capacitor | microcantilever | microfluidic | integrated circuits;vacuum;chemical vapor deposition;CVD;oxidation;diffusion;implantation;lithography;soft lithography;etching;sputtering;evaporation;interconnect;metallization;crystal growth;reliability;fabrication;processing;photolithography;physical vapor deposition;MOS;MOS capacitor;microcantilever;microfluidic | integrated circuits;vacuum;chemical vapor deposition;CVD;oxidation;diffusion;implantation;lithography;soft lithography;etching;sputtering;evaporation;interconnect;metallization;crystal growth;reliability;fabrication;processing;photolithography;physical vapor deposition;MOS;MOS capacitor;microcantilever;microfluidic | integrated circuits | integrated circuits | vacuum | vacuum | chemical vapor deposition | chemical vapor deposition | CVD | CVD | oxidation | oxidation | diffusion | diffusion | implantation | implantation | lithography | lithography | soft lithography | soft lithography | etching | etching | sputtering | sputtering | evaporation | evaporation | interconnect | interconnect | metallization | metallization | crystal growth | crystal growth | reliability | reliability | fabrication | fabrication | processing | processing | photolithography | photolithography | physical vapor deposition | physical vapor deposition | MOS | MOS | MOS capacitor | MOS capacitor | microcantilever | microcantilever | microfluidic | microfluidic | 6.152 | 6.152 | 3.155 | 3.155

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8.022 Physics II: Electricity and Magnetism (MIT) 8.022 Physics II: Electricity and Magnetism (MIT)

Description

Course 8.022 is one of several second-term freshman physics courses offered at MIT. It is geared towards students who are looking for a thorough and challenging introduction to electricity and magnetism. Topics covered include: Electric and magnetic field and potential; introduction to special relativity; Maxwell's equations, in both differential and integral form; and properties of dielectrics and magnetic materials. In addition to the theoretical subject matter, several experiments in electricity and magnetism are performed by the students in the laboratory. Acknowledgments Prof. Sciolla would like to acknowledge the contributions of MIT Professors Scott Hughes and Peter Fisher to the development of this course. She would also like to acknowledge that these course materials include cont Course 8.022 is one of several second-term freshman physics courses offered at MIT. It is geared towards students who are looking for a thorough and challenging introduction to electricity and magnetism. Topics covered include: Electric and magnetic field and potential; introduction to special relativity; Maxwell's equations, in both differential and integral form; and properties of dielectrics and magnetic materials. In addition to the theoretical subject matter, several experiments in electricity and magnetism are performed by the students in the laboratory. Acknowledgments Prof. Sciolla would like to acknowledge the contributions of MIT Professors Scott Hughes and Peter Fisher to the development of this course. She would also like to acknowledge that these course materials include cont

Subjects

Electricity | Electricity | Magnetism | Magnetism | Maxwell's equations | Maxwell's equations | electrostatic potential | electrostatic potential | vector potential | vector potential | dielectrics | dielectrics | Coulomb's Law | Coulomb's Law | Electric Field | Electric Field | Electric Flux | Electric Flux | Gauss's Law | Gauss's Law | Electric Potential Gradient | Electric Potential Gradient | Poisson Equations | Poisson Equations | Laplace Equations | Laplace Equations | Curl | Curl | Conductors | Conductors | Capacitance | Capacitance | Resistance | Resistance | Kirchhoff's Rules | Kirchhoff's Rules | EMF | EMF | RC Circuits | RC Circuits | Th?venin Equivalence | Th?venin Equivalence | Magnetic Force | Magnetic Force | Magnetic Field | Magnetic Field | Ampere's Law | Ampere's Law | Special Relativity | Special Relativity | Spacetime | Spacetime | Biot-Savart Law | Biot-Savart Law | Faraday's Law | Faraday's Law | Lenz's Law | Lenz's Law | RL Circuits | RL Circuits | AC Circuits | AC Circuits | Electromagnetic Radiation | Electromagnetic Radiation | Poynting Vector | Poynting Vector | Magnetism | Maxwell's equations; | Magnetism | Maxwell's equations;

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18.338J Infinite Random Matrix Theory (MIT) 18.338J Infinite Random Matrix Theory (MIT)

Description

In this course on the mathematics of infinite random matrices, students will learn about the tools such as the Stieltjes transform and Free Probability used to characterize infinite random matrices. In this course on the mathematics of infinite random matrices, students will learn about the tools such as the Stieltjes transform and Free Probability used to characterize infinite random matrices.

Subjects

Infinite Random Matrices | Infinite Random Matrices | The Hermite Ensemble | The Hermite Ensemble | Wigner's Semi-Circle Law; | Wigner's Semi-Circle Law; | The Laguerre Ensemble | The Laguerre Ensemble | Marcenko-Pastur Theorem | Marcenko-Pastur Theorem | The Jacobi Ensemble | The Jacobi Ensemble | McKay's Random Graph Theorem | McKay's Random Graph Theorem | The ?Semi-Circular? Element | The ?Semi-Circular? Element | Central Limit Theorem | Central Limit Theorem | Free Cumulants in Free Probability | Free Cumulants in Free Probability | Non-Crossing Partitionsm | Non-Crossing Partitionsm | Free Cumulants | Free Cumulants | The Semi-Circular and ?Free Poisson? distributions | The Semi-Circular and ?Free Poisson? distributions | Additive Free Convolution | Additive Free Convolution | The R-Transform and the Marcenko-Pastur Theorem | The R-Transform and the Marcenko-Pastur Theorem | Multiplicative Free Convolution | Multiplicative Free Convolution | The S-Transform | The S-Transform | Non-Crossing Partitions | Non-Crossing Partitions | Orthogonal Polynomials and the Classical Matrix Ensembles | Orthogonal Polynomials and the Classical Matrix Ensembles | Tracy Widom Distribution | Tracy Widom Distribution | Eigenvalue Spectrum Fluctuations | Eigenvalue Spectrum Fluctuations | Free Probability and Fluctuations | Free Probability and Fluctuations | Zonal Polynomials and Random Matrices | Zonal Polynomials and Random Matrices | Symmetric Group Representations and Free Probability | Symmetric Group Representations and Free Probability | 18.338 | 18.338 | 16.394 | 16.394 | Wigner's Semi-Circle Law | Wigner's Semi-Circle Law

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18.997 Topics in Combinatorial Optimization (MIT) 18.997 Topics in Combinatorial Optimization (MIT)

Description

In this graduate-level course, we will be covering advanced topics in combinatorial optimization. We will start with non-bipartite matchings and cover many results extending the fundamental results of matchings, flows and matroids. The emphasis is on the derivation of purely combinatorial results, including min-max relations, and not so much on the corresponding algorithmic questions of how to find such objects. The intended audience consists of Ph.D. students interested in optimization, combinatorics, or combinatorial algorithms. In this graduate-level course, we will be covering advanced topics in combinatorial optimization. We will start with non-bipartite matchings and cover many results extending the fundamental results of matchings, flows and matroids. The emphasis is on the derivation of purely combinatorial results, including min-max relations, and not so much on the corresponding algorithmic questions of how to find such objects. The intended audience consists of Ph.D. students interested in optimization, combinatorics, or combinatorial algorithms.

Subjects

combinatorial optimization | combinatorial optimization | Ear decompositions | Ear decompositions | Nonbipartite matching | Nonbipartite matching | Gallai-Milgram and Bessy-Thomasse theorems on partitioning/covering graphs by directed paths/cycles | Gallai-Milgram and Bessy-Thomasse theorems on partitioning/covering graphs by directed paths/cycles | Minimization of submodular functions | Minimization of submodular functions | Matroid intersection | Matroid intersection | Polymatroid intersection | Polymatroid intersection | Jump systems | Jump systems | Matroid union | Matroid union | Matroid matching | path matchings | Matroid matching | path matchings | Packing trees and arborescences | Packing trees and arborescences | Packing directed cuts and the Lucchesi-Younger theorem | Packing directed cuts and the Lucchesi-Younger theorem | Submodular flows and the Edmonds-Giles theorem | Submodular flows and the Edmonds-Giles theorem | Graph orientation | Graph orientation | Connectivity tree and connectivity augmentation | Connectivity tree and connectivity augmentation | Multicommodity flows | Multicommodity flows | Connectivity tree | Connectivity tree | connectivity augmentation | connectivity augmentation | Gallai-Milgram Theorem | Gallai-Milgram Theorem | Bessy-Thomasse Theorem | Bessy-Thomasse Theorem | paritioning graphs | paritioning graphs | covering graphs | covering graphs | directed paths | directed paths | directed cycles | directed cycles | matroid matching | matroid matching | path matching | path matching | packing directed cuts | packing directed cuts | Luchessi-Younger Theorem | Luchessi-Younger Theorem | packing trees | packing trees | arborescences | arborescences | submodular flows | submodular flows | Edmonds-Giles Theorem | Edmonds-Giles Theorem

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21G.716 Introduction to Contemporary Hispanic Literature (MIT) 21G.716 Introduction to Contemporary Hispanic Literature (MIT)

Description

This course studies representative twentieth and twenty-first-century texts and films from Hispanic America and Spain. Emphasis is on developing strategies for analyzing the genres of the novel, the short story, the poem, the fictional film, and the theatrical script. The novels read this semester are Magali García Ramis's Felices días, Tío Sergio (1986, Puerto Rico) and Javier Cercas's Soldados de Salamina (2001, Spain). We will study Lorca's play "La casa de Bernarda Alba" (1936, Spain), films from Spain, México, and Cuba, poems by Darío (Nicaragua), Machado (Spain), Lorca (Spain), Hernández (Spain), Vallejo (Perú), Cernuda (Spain), and Luis Palés Matos (Puerto Rico), and short stories from México (by an exiled Spanish writer), Chile, Argentina, and Cuba. Thematic e This course studies representative twentieth and twenty-first-century texts and films from Hispanic America and Spain. Emphasis is on developing strategies for analyzing the genres of the novel, the short story, the poem, the fictional film, and the theatrical script. The novels read this semester are Magali García Ramis's Felices días, Tío Sergio (1986, Puerto Rico) and Javier Cercas's Soldados de Salamina (2001, Spain). We will study Lorca's play "La casa de Bernarda Alba" (1936, Spain), films from Spain, México, and Cuba, poems by Darío (Nicaragua), Machado (Spain), Lorca (Spain), Hernández (Spain), Vallejo (Perú), Cernuda (Spain), and Luis Palés Matos (Puerto Rico), and short stories from México (by an exiled Spanish writer), Chile, Argentina, and Cuba. Thematic e

Subjects

introduction | introduction | hispanic | hispanic | contemporary | contemporary | literature | literature | Magali Garcia Ramis | Magali Garcia Ramis | Javier Cercas | Javier Cercas | Rub?n Dar?o | Rub?n Dar?o | Luis Bu?uel | Luis Bu?uel | Salvador Dal? | Salvador Dal? | Un chien andalou | Un chien andalou | Antonio Machado | Antonio Machado | Federico Garc?a Lorca | Federico Garc?a Lorca | Miguel Hern?ndez | Miguel Hern?ndez | C?sar Vallejo | C?sar Vallejo | La casa de Bernarda Alba | La casa de Bernarda Alba | Max Aub | Max Aub | El remate | El remate | Felices d?as | Felices d?as | T?o Sergio | T?o Sergio | Luis Pal?s Matos | Luis Pal?s Matos | Soldados de Salamina | Soldados de Salamina | David Trueba | David Trueba | Rafael S?nchez Mazas | Rafael S?nchez Mazas | Ciriaco P?rez Bustamante | Ciriaco P?rez Bustamante | Marilyn Bobes | Marilyn Bobes | Ingrid Kummels | Ingrid Kummels | Ic?ar Bolla?n | Ic?ar Bolla?n | Flores de otro mundo | Flores de otro mundo | La vida es silbar | La vida es silbar | Jorge Luis Borges | Jorge Luis Borges | Rosario Ferr? | Rosario Ferr? | Roberto Bola?o | Roberto Bola?o | short story | short story | novel | novel | latin american experience | latin american experience | spanish | spanish

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Machine Learning I Machine Learning I

Description

The main goals of this course are: to introduce the basic concepts of Machine Learning and Big Data Machine Learning; to describe the main areas, techniques, and processes in Machine Learning; to introduce some of the main tools in (Big Data) Machine Learning The main goals of this course are: to introduce the basic concepts of Machine Learning and Big Data Machine Learning; to describe the main areas, techniques, and processes in Machine Learning; to introduce some of the main tools in (Big Data) Machine Learning

Subjects

Nearest neighbours | Nearest neighbours | Models for regression | Models for regression | MLLIB | MLLIB | Gradient Boosting | Gradient Boosting | Bagging | Bagging | Hyper-parameter optimization | Hyper-parameter optimization | Pyspark | Pyspark | Large scale machine learning | Large scale machine learning | Boosting | Boosting | Spark | Spark | 2016 | 2016 | Random Forests | Random Forests | Machine learning | Machine learning | Decision / regression trees and rules | Decision / regression trees and rules | Feature selection | Feature selection | Model evaluation | Model evaluation | Feature transformation | Feature transformation | ML | ML | Basic pipeline | Basic pipeline | Models for classification | Models for classification | MapReduce | MapReduce | C. Computacion e Inteligencia Artificial | C. Computacion e Inteligencia Artificial | Dimensionality reduction | Dimensionality reduction

License

Copyright 2015, UC3M http://creativecommons.org/licenses/by-nc-sa/4.0/

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14.129 Advanced Contract Theory (MIT) 14.129 Advanced Contract Theory (MIT)

Description

This course focuses on recent developments in contract theory. Topics include: advanced models of moral hazard, adverse selection, mechanism design and incomplete contracts with applications to theory of the firm, organizational design, and financial structure. This course focuses on recent developments in contract theory. Topics include: advanced models of moral hazard, adverse selection, mechanism design and incomplete contracts with applications to theory of the firm, organizational design, and financial structure.

Subjects

Games with Incomplete Information | Games with Incomplete Information | Bayesian-Nash Games | Bayesian-Nash Games | Auctions and Mechanism Design | Auctions and Mechanism Design | Static Models | Static Models | Simple Models | Simple Models | Multiple Agents | Multiple Agents | Dynamic Models | Dynamic Models | Dynamic Adverse Selection | Dynamic Adverse Selection | Dynamic Moral Hazard | Dynamic Moral Hazard | Surplus Division | Surplus Division

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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22.611J Introduction to Plasma Physics I (MIT) 22.611J Introduction to Plasma Physics I (MIT)

Description

In this course, students will learn about plasmas, the fourth state of matter. The plasma state dominates the visible universe, and is of increasing economic importance. Plasmas behave in lots of interesting and sometimes unexpected ways. The course is intended only as a first plasma physics course, but includes critical concepts needed for a foundation for further study. A solid undergraduate background in classical physics, electromagnetic theory including Maxwell's equations, and mathematical familiarity with partial differential equations and complex analysis are prerequisites. The course introduces plasma phenomena relevant to energy generation by controlled thermonuclear fusion and to astrophysics, coulomb collisions and transport processes, motion of charged particles in magne In this course, students will learn about plasmas, the fourth state of matter. The plasma state dominates the visible universe, and is of increasing economic importance. Plasmas behave in lots of interesting and sometimes unexpected ways. The course is intended only as a first plasma physics course, but includes critical concepts needed for a foundation for further study. A solid undergraduate background in classical physics, electromagnetic theory including Maxwell's equations, and mathematical familiarity with partial differential equations and complex analysis are prerequisites. The course introduces plasma phenomena relevant to energy generation by controlled thermonuclear fusion and to astrophysics, coulomb collisions and transport processes, motion of charged particles in magne

Subjects

plasma phenomena | plasma phenomena | energy generation | energy generation | controlled thermonuclear fusion | controlled thermonuclear fusion | astrophysics | astrophysics | Coulomb collisions | Coulomb collisions | transport processes | transport processes | charged particles | charged particles | magnetic fields | magnetic fields | plasma confinement schemes | plasma confinement schemes | MHD models | MHD models | simple equilibrium | simple equilibrium | stability analysis | stability analysis | Two-fluid hydrodynamic plasma models | Two-fluid hydrodynamic plasma models | wave propagation | wave propagation | kinetic theory | kinetic theory | Vlasov plasma model | Vlasov plasma model | electron plasma waves | electron plasma waves | Landau damping | Landau damping | ion-acoustic waves | ion-acoustic waves | streaming instabilities | streaming instabilities | fourth state of matter | fourth state of matter | plasma state | plasma state | visible universe | visible universe | economics | economics | plasmas | plasmas | motion of charged particles | motion of charged particles | two-fluid hydrodynamic plasma models | two-fluid hydrodynamic plasma models | Debye Shielding | Debye Shielding | collective effects | collective effects | charged particle motion | charged particle motion | EM Fields | EM Fields | cross-sections | cross-sections | relaxation | relaxation | fluid plasma descriptions | fluid plasma descriptions | MHD equilibrium | MHD equilibrium | MHD dynamics | MHD dynamics | dynamics in two-fluid plasmas | dynamics in two-fluid plasmas | cold plasma waves | cold plasma waves | magnetic field | magnetic field | microscopic to fluid plasma descriptions | microscopic to fluid plasma descriptions | Vlasov-Maxwell kinetic theory.linear Landau growth | Vlasov-Maxwell kinetic theory.linear Landau growth | kinetic description of waves | kinetic description of waves | instabilities | instabilities | Vlasov-Maxwell kinetic theory | Vlasov-Maxwell kinetic theory | linear Landau growth | linear Landau growth | 22.611 | 22.611 | 6.651 | 6.651 | 8.613 | 8.613

License

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Comunicaciones Móviles Comunicaciones Móviles

Description

Comunicaciones Móviles es una asignatura optativa de segundo ciclo impartida en el primer semestre del quinto curso del Plan de Estudios 1994 de Ingeniería de Telecomunicación. Los descriptores según BOE de esta asignatura son los siguientes: materias relativas a sistemas específicos de radio, tales como: sistemas radar, sistemas de radionavegación, comunicaciones móviles, comunicaciones por satélite. Comunicaciones Móviles es una asignatura optativa de segundo ciclo impartida en el primer semestre del quinto curso del Plan de Estudios 1994 de Ingeniería de Telecomunicación. Los descriptores según BOE de esta asignatura son los siguientes: materias relativas a sistemas específicos de radio, tales como: sistemas radar, sistemas de radionavegación, comunicaciones móviles, comunicaciones por satélite.

Subjects

GPRS | GPRS | Planificación radio | Planificación radio | Tercera Generación | Tercera Generación | OFDM | OFDM | HSUPA | HSUPA | UMTS | UMTS | Sistemas celulares | Sistemas celulares | Teoría de la Señal y Comunicaciones | Teoría de la Señal y Comunicaciones | LTE | LTE | HSDPA | HSDPA | CDMA | CDMA | GSM | GSM | MIMO | MIMO | Reutilización de frecuencias | Reutilización de frecuencias

License

Copyright 2009, by the Contributing Authors http://creativecommons.org/licenses/by-nc-sa/3.0/

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20.320 Analysis of Biomolecular and Cellular Systems (MIT) 20.320 Analysis of Biomolecular and Cellular Systems (MIT)

Description

This course focuses on computational and experimental analysis of biological systems across a hierarchy of scales, including genetic, molecular, cellular, and cell population levels. The two central themes of the course are modeling of complex dynamic systems and protein design and engineering. Topics include gene sequence analysis, molecular modeling, metabolic and gene regulation networks, signal transduction pathways and cell populations in tissues. Emphasis is placed on experimental methods, quantitative analysis, and computational modeling. This course focuses on computational and experimental analysis of biological systems across a hierarchy of scales, including genetic, molecular, cellular, and cell population levels. The two central themes of the course are modeling of complex dynamic systems and protein design and engineering. Topics include gene sequence analysis, molecular modeling, metabolic and gene regulation networks, signal transduction pathways and cell populations in tissues. Emphasis is placed on experimental methods, quantitative analysis, and computational modeling.

Subjects

biological engineering | biological engineering | kinase | kinase | PyMOL | PyMOL | PyRosetta | PyRosetta | MATLAB | MATLAB | Michaelis-Menten | Michaelis-Menten | bioreactor | bioreactor | bromodomain | bromodomain | protein-ligand interactions | protein-ligand interactions | titration analysis | titration analysis | fractional separation | fractional separation | isothermal titration calorimetry | isothermal titration calorimetry | ITC | ITC | mass spectrometry | mass spectrometry | MS | MS | co-immunoprecipitation | co-immunoprecipitation | Co-IP | Co-IP | Forster resonance energy transfer | Forster resonance energy transfer | FRET | FRET | primary ligation assay | primary ligation assay | PLA | PLA | surface plasmon resonance | surface plasmon resonance | SPR | SPR | enzyme kinetics | enzyme kinetics | kinase engineering | kinase engineering | competitive inhibition | competitive inhibition | epidermal growth factor receptor | epidermal growth factor receptor | mitogen-activated protein kinase | mitogen-activated protein kinase | MAPK | MAPK | genome editing | genome editing | Imatinib | Imatinib | Gleevec | Gleevec | Glivec | Glivec | drug delivery | drug delivery | kinetics of molecular processes | kinetics of molecular processes | dynamics of molecular processes | dynamics of molecular processes | kinetics of cellular processes | kinetics of cellular processes | dynamics of cellular processes | dynamics of cellular processes | intracellular scale | intracellular scale | extracellular scale | extracellular scale | and cell population scale | and cell population scale | biotechnology applications | biotechnology applications | gene regulation networks | gene regulation networks | nucleic acid hybridization | nucleic acid hybridization | signal transduction pathways | signal transduction pathways | cell populations in tissues | cell populations in tissues | cell populations in bioreactors | cell populations in bioreactors | experimental methods | experimental methods | quantitative analysis | quantitative analysis | computational modeling | computational modeling

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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21H.141 Renaissance To Revolution: Europe, 1300-1800 (MIT) 21H.141 Renaissance To Revolution: Europe, 1300-1800 (MIT)

Description

This course provides an introduction to major political, social, cultural and intellectual changes in Europe from the beginnings of the Renaissance in Italy around 1300 to the outbreak of the French Revolution at the end of the 1700s. It focuses on the porous boundaries between categories of theology, magic and science, as well as print. It examines how developments in these areas altered European political institutions, social structures, and cultural practices. It also studies men and women, nobles and commoners, as well as Europeans and some non-Europeans with whom they came into contact. This course provides an introduction to major political, social, cultural and intellectual changes in Europe from the beginnings of the Renaissance in Italy around 1300 to the outbreak of the French Revolution at the end of the 1700s. It focuses on the porous boundaries between categories of theology, magic and science, as well as print. It examines how developments in these areas altered European political institutions, social structures, and cultural practices. It also studies men and women, nobles and commoners, as well as Europeans and some non-Europeans with whom they came into contact.

Subjects

renaissance | renaissance | revolution | revolution | Europe | Europe | Italy | Italy | French Revolution | French Revolution | theology | theology | magic | magic | science | science | England | England | censorship | censorship | Rene Descartes | Rene Descartes | Italian humanism | Italian humanism | Copernicus | Copernicus | Constantine | Constantine | printing | printing | rare books | rare books | paper-making | paper-making | Erasmus of Rotterdam | Erasmus of Rotterdam | The Paraclesis | The Paraclesis | free will | free will | Luther | Luther | German Peasants War | German Peasants War | The Cheese and the Worms | The Cheese and the Worms | Protestant revolution | Protestant revolution | Catholic renewal | Catholic renewal | radical reform movements | radical reform movements | religion | religion | Menocchio | Menocchio | skepticism | skepticism | the occult | the occult | Michel de Montaigne | Michel de Montaigne | astrology | astrology | Cardano | Cardano | Cartesian Method | Cartesian Method | Discourse on Method | Discourse on Method | English Civil War | English Civil War | interregnum | Putney debates | interregnum | Putney debates | Wallington's World | Wallington's World | The Mad Hatter | The Mad Hatter | Isaac Newton | Isaac Newton | Newtonianism | Newtonianism | Principia | Principia | The Encyclopedie | The Encyclopedie | Diderot | Diderot | d'Alembert | d'Alembert | metric system | metric system

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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rmicos rmicos

Description

Subjects

Motores | Motores | n interna alternativos | n interna alternativos | Ingenieria Mecanica | Ingenieria Mecanica | Motores de encendido provocado | Motores de encendido provocado | Euler | Euler | Ciclos de dos composiciones | Ciclos de dos composiciones | mica | mica | MCIA | MCIA | Gases de escape | Gases de escape | Ciclos de turbinas de gas | Ciclos de turbinas de gas | n limpia | n limpia | mico | mico | Potencialidad | Potencialidad | n eficiente | n eficiente | n | n | Reactantes | Reactantes | Llama turbulenta | Llama turbulenta | quinas | quinas | Calor residual | Calor residual | n Turboalimentacin | n Turboalimentacin | MCI | MCI | n interna | n interna | rdenes de magnitud | rdenes de magnitud | MEP | MEP

License

Copyright 2015, UC3M http://creativecommons.org/licenses/by-nc-sa/4.0/

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