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Disciplina asociada:Tecnologías Electrónicas |
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Escuela:
Ingeniería y Ciencias
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Departamento Académico:
Mecatrónica
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Programas académicos: |
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Requisitos:No tiene. |
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Equivalencia:E 99229 |
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Intención del curso en el contexto general del plan de estudios: |
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Curso básico que proporciona herramientas matemáticas necesarias para el desarrollo de la ingeniería de electrónica y telecomunicaciones. Este curso requiere conocimientos previos de probabilidad y estadística, así como de señales y sistemas. Como producto de aprendizaje de este curso se espera que los estudiantes caractericen a través de procesos estocásticos y aleatorios señales y sistemas de comunicaciones, así como procesos involucrados en los mismos como filtrado. |
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Objetivo general de la Unidad de Formación: |
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Al finalizar el curso el alumno será capaz de: - Aplicar los conocimientos teóricos fundamentales y las habilidades necesarias para estudiar a las señales y sistemas a través de procesos aleatorios y estocásticos. - Describir las densidades espectrales de señales y los efectos del filtrado de las mismas. - Aplicar la teoría de procesos aleatorios, para caracterizar aspectos de tráfico, confiabilidad, y disponibilidad en redes de comunicaciones, estudiando y definiendo los conceptos de calidad de servicio. - Caracterizar ruido en los canales de comunicaciones. - Describir con procesos estocásticos y aleatorios aspectos fundamentales de señales y sistemas de telecomunicaciones para que puedan ser comparados y evaluados. |
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Técnica didáctica sugerida: |
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| No especificado | |||||
Bibliografía sugerida: |
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LIBROS DE TEXTO: * R. Yates & D. Goodman, Probability and Stochastic Processes: A Friendly Introduction for Electrical and Computer engineers, John Wiley & Sons, Inc., 2014, * Davenport, Wilbur B., An introduction to the theory of random signals and noise, New York : New York: IEEE Press, 1987, eng, 0879422351 * Davenport, Wilbur B., Probability and random processes; an introduction for applied scientists and engineers, New York : New York: McGraw-Hill, 1987, eng, 0070154406 LIBROS DE CONSULTA: * C¸inlar, E. (Erhan), Introduction to stochastic processes, New Jersey : Englewood Cliffs, N. J.: Prentice-Hall, 1975, eng, 0134980891 * Ross, Sheldon M., Stochastic processes, 2nd. Edition, New York: Wiley, 1996, 0471120626 (cloth : alk. paper) * Leon-Garcia, Alberto, Probability, statistics, and random processes for electrical engineering, 3rd. Edition, New Jersey : Upper Saddle River, N. J.: Pearson/Prentice Hall, 2008, eng, 0131471228 (papel alcalino), 9780131471221 (papel alcalino) * Hoel, Paul Hard, Introduction to stochastic processes, 1era. Edición, Illinois : Illinois: Waveland Press, 1987, eng, 0881332674, 9780881332674 * Stark, Henry, Probability and random processes with applications to signal processing, 3rd. Edition, New Jersey : Upper Saddle River, N. J.: Prentice Hall, 2002, eng, 0130200719 * Papoulis, Athanasios, Probability, random variables, and stochastic processes, 4th. Edition, Massachusetts : Boston: McGraw-Hill, 2002, eng, 0071122567, 0073660116 |
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Perfil del Profesor: |
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(141001)Doctorado en Ingeniería Eléctrica/Electrónica y Comunicaciones CIP: 141001 Experiencia recomendada: Experiencia docente y/o de investigación en fenómenos estocásticos y modelado en sistemas de comunicaciones. |
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Discipline:Electronic Technologies |
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School:
Engineering and Sciences
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Academic Department:
Mechatronics
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Programs: |
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Prerequisites:None. |
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Equivalences:E 99229 |
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Course intention within the general study plan context: |
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This basic course provides the mathematical tools needed to develop electronic and telecommunications engineering. Prior knowledge of probability and statistics and signals and systems is required. Learning outcome: the student will characterize through stochastic processes and random communication signals and systems, as well as processes involved in the same as a filter. |
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Course objective: |
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At the end of the course the student will be able to: - Apply basic theoretical knowledge and necessary study skills to the study of signals and systems through random and stochastic processes; - Describe the spectral densities of signals and the effects of the filtering of these; - Apply random process theory to characterize aspects of traffic, reliability and availability in communication networks, studying and defining service quality concepts; - Characterize noise in communication channels; - Describe with stochastic and random processes fundamental aspects of signals and telecommunications systems so they can be compared and evaluated. |
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Teaching and learning tecniques: |
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| Not Specified | |||||
Suggested Bibliography: |
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TEXT BOOKS: * R. Yates & D. Goodman, Probability and Stochastic Processes: A Friendly Introduction for Electrical and Computer engineers, John Wiley & Sons, Inc., 2014, * Davenport, Wilbur B., An introduction to the theory of random signals and noise, New York : New York: IEEE Press, 1987, eng, 0879422351 * Davenport, Wilbur B., Probability and random processes; an introduction for applied scientists and engineers, New York : New York: McGraw-Hill, 1987, eng, 0070154406 BOOKS FOR CONSULTATION: * C¸inlar, E. (Erhan), Introduction to stochastic processes, New Jersey : Englewood Cliffs, N. J.: Prentice-Hall, 1975, eng, 0134980891 * Ross, Sheldon M., Stochastic processes, 2nd. Edition, New York: Wiley, 1996, 0471120626 (cloth : alk. paper) * Leon-Garcia, Alberto, Probability, statistics, and random processes for electrical engineering, 3rd. Edition, New Jersey : Upper Saddle River, N. J.: Pearson/Prentice Hall, 2008, eng, 0131471228 (papel alcalino), 9780131471221 (papel alcalino) * Hoel, Paul Hard, Introduction to stochastic processes, 1era. Edición, Illinois : Illinois: Waveland Press, 1987, eng, 0881332674, 9780881332674 * Stark, Henry, Probability and random processes with applications to signal processing, 3rd. Edition, New Jersey : Upper Saddle River, N. J.: Prentice Hall, 2002, eng, 0130200719 * Papoulis, Athanasios, Probability, random variables, and stochastic processes, 4th. Edition, Massachusetts : Boston: McGraw-Hill, 2002, eng, 0071122567, 0073660116 |
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Academic credentials required to teach the course: |
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(141001)Doctoral Degree in Electrical Engineering/ Electronics and Communications CIP: 141001 |
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