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SP.298 Art of Color (MIT) SP.298 Art of Color (MIT)
Description
This seminar introduces, through studio projects, the basic principles regarding the use of color in the visual arts. Students explore a range of topics, including the historical uses of color in the arts, the interactions between colors, and the psychology of color. This seminar introduces, through studio projects, the basic principles regarding the use of color in the visual arts. Students explore a range of topics, including the historical uses of color in the arts, the interactions between colors, and the psychology of color.Subjects
visual design | visual design | studio projects | studio projects | color | color | visual arts | visual arts | color and value balance | color and value balance | warm colors | warm colors | cold colors | cold colors | interaction of colors | interaction of colors | science of color | science of color | color theory | color theory | multi-media | multi-media | ESG.SP298 | ESG.SP298License
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See all metadataES.298 Art of Color (MIT) ES.298 Art of Color (MIT)
Description
This seminar introduces, through studio projects, the basic principles regarding the use of color in the visual arts. Students explore a range of topics, including the historical uses of color in the arts, the interactions between colors, and the psychology of color. This seminar introduces, through studio projects, the basic principles regarding the use of color in the visual arts. Students explore a range of topics, including the historical uses of color in the arts, the interactions between colors, and the psychology of color.Subjects
visual design | visual design | studio projects | studio projects | color | color | visual arts | visual arts | color and value balance | color and value balance | warm colors | warm colors | cold colors | cold colors | interaction of colors | interaction of colors | science of color | science of color | color theory | color theory | multi-media | multi-media | ESG.SP298 | ESG.SP298License
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.htmSite sourced from
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This course is a student-presented seminar in combinatorics, graph theory, and discrete mathematics in general. Instruction and practice in written and oral communication is emphasized, with participants reading and presenting papers from recent mathematics literature and writing a final paper in a related topic. This course is a student-presented seminar in combinatorics, graph theory, and discrete mathematics in general. Instruction and practice in written and oral communication is emphasized, with participants reading and presenting papers from recent mathematics literature and writing a final paper in a related topic.Subjects
discrete math; discrete mathematics; discrete; math; mathematics; seminar; presentations; student presentations; oral; communication; stable marriage; dych; emergency; response vehicles; ambulance; game theory; congruences; color theorem; four color; cake cutting; algorithm; RSA; encryption; numberical integration; sorting; post correspondence problem; PCP; ramsey; van der waals; fibonacci; recursion; domino; tiling; towers; hanoi; pigeonhole; principle; matrix; hamming; code; hat game; juggling; zero-knowledge; proof; repeated games; lewis carroll; determinants; infinitude of primes; bridges; konigsberg; koenigsberg; time series analysis; GARCH; rational; recurrence; relations; digital; image; compression; quantum computing | discrete math; discrete mathematics; discrete; math; mathematics; seminar; presentations; student presentations; oral; communication; stable marriage; dych; emergency; response vehicles; ambulance; game theory; congruences; color theorem; four color; cake cutting; algorithm; RSA; encryption; numberical integration; sorting; post correspondence problem; PCP; ramsey; van der waals; fibonacci; recursion; domino; tiling; towers; hanoi; pigeonhole; principle; matrix; hamming; code; hat game; juggling; zero-knowledge; proof; repeated games; lewis carroll; determinants; infinitude of primes; bridges; konigsberg; koenigsberg; time series analysis; GARCH; rational; recurrence; relations; digital; image; compression; quantum computing | discrete math | discrete math | discrete mathematics | discrete mathematics | discrete | discrete | math | math | mathematics | mathematics | seminar | seminar | presentations | presentations | student presentations | student presentations | oral | oral | communication | communication | stable marriage | stable marriage | dych | dych | emergency | emergency | response vehicles | response vehicles | ambulance | ambulance | game theory | game theory | congruences | congruences | color theorem | color theorem | four color | four color | cake cutting | cake cutting | algorithm | algorithm | RSA | RSA | encryption | encryption | numberical integration | numberical integration | sorting | sorting | post correspondence problem | post correspondence problem | PCP | PCP | ramsey | ramsey | van der waals | van der waals | fibonacci | fibonacci | recursion | recursion | domino | domino | tiling | tiling | towers | towers | hanoi | hanoi | pigeonhole | pigeonhole | principle | principle | matrix | matrix | hamming | hamming | code | code | hat game | hat game | juggling | juggling | zero-knowledge | zero-knowledge | proof | proof | repeated games | repeated games | lewis carroll | lewis carroll | determinants | determinants | infinitude of primes | infinitude of primes | bridges | bridges | konigsberg | konigsberg | koenigsberg | koenigsberg | time series analysis | time series analysis | GARCH | GARCH | rational | rational | recurrence | recurrence | relations | relations | digital | digital | image | image | compression | compression | quantum computing | quantum computingLicense
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.htmSite sourced from
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This course is a student-presented seminar in combinatorics, graph theory, and discrete mathematics in general. Instruction and practice in written and oral communication is emphasized, with participants reading and presenting papers from recent mathematics literature and writing a final paper in a related topic. This course is a student-presented seminar in combinatorics, graph theory, and discrete mathematics in general. Instruction and practice in written and oral communication is emphasized, with participants reading and presenting papers from recent mathematics literature and writing a final paper in a related topic.Subjects
discrete math; discrete mathematics; discrete; math; mathematics; seminar; presentations; student presentations; oral; communication; stable marriage; dych; emergency; response vehicles; ambulance; game theory; congruences; color theorem; four color; cake cutting; algorithm; RSA; encryption; numberical integration; sorting; post correspondence problem; PCP; ramsey; van der waals; fibonacci; recursion; domino; tiling; towers; hanoi; pigeonhole; principle; matrix; hamming; code; hat game; juggling; zero-knowledge; proof; repeated games; lewis carroll; determinants; infinitude of primes; bridges; konigsberg; koenigsberg; time series analysis; GARCH; rational; recurrence; relations; digital; image; compression; quantum computing | discrete math; discrete mathematics; discrete; math; mathematics; seminar; presentations; student presentations; oral; communication; stable marriage; dych; emergency; response vehicles; ambulance; game theory; congruences; color theorem; four color; cake cutting; algorithm; RSA; encryption; numberical integration; sorting; post correspondence problem; PCP; ramsey; van der waals; fibonacci; recursion; domino; tiling; towers; hanoi; pigeonhole; principle; matrix; hamming; code; hat game; juggling; zero-knowledge; proof; repeated games; lewis carroll; determinants; infinitude of primes; bridges; konigsberg; koenigsberg; time series analysis; GARCH; rational; recurrence; relations; digital; image; compression; quantum computing | discrete math | discrete math | discrete mathematics | discrete mathematics | discrete | discrete | math | math | mathematics | mathematics | seminar | seminar | presentations | presentations | student presentations | student presentations | oral | oral | communication | communication | stable marriage | stable marriage | dych | dych | emergency | emergency | response vehicles | response vehicles | ambulance | ambulance | game theory | game theory | congruences | congruences | color theorem | color theorem | four color | four color | cake cutting | cake cutting | algorithm | algorithm | RSA | RSA | encryption | encryption | numberical integration | numberical integration | sorting | sorting | post correspondence problem | post correspondence problem | PCP | PCP | ramsey | ramsey | van der waals | van der waals | fibonacci | fibonacci | recursion | recursion | domino | domino | tiling | tiling | towers | towers | hanoi | hanoi | pigeonhole | pigeonhole | principle | principle | matrix | matrix | hamming | hamming | code | code | hat game | hat game | juggling | juggling | zero-knowledge | zero-knowledge | proof | proof | repeated games | repeated games | lewis carroll | lewis carroll | determinants | determinants | infinitude of primes | infinitude of primes | bridges | bridges | konigsberg | konigsberg | koenigsberg | koenigsberg | time series analysis | time series analysis | GARCH | GARCH | rational | rational | recurrence | recurrence | relations | relations | digital | digital | image | image | compression | compression | quantum computing | quantum computingLicense
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.htmSite sourced from
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This seminar introduces, through studio projects, the basic principles regarding the use of color in the visual arts. Students explore a range of topics, including the historical uses of color in the arts, the interactions between colors, and the psychology of color.Subjects
visual design | studio projects | color | visual arts | color and value balance | warm colors | cold colors | interaction of colors | science of color | color theory | multi-media | ESG.SP298License
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.htmSite sourced from
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This seminar introduces, through studio projects, the basic principles regarding the use of color in the visual arts. Students explore a range of topics, including the historical uses of color in the arts, the interactions between colors, and the psychology of color.Subjects
visual design | studio projects | color | visual arts | color and value balance | warm colors | cold colors | interaction of colors | science of color | color theory | multi-media | ESG.SP298License
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.htmSite sourced from
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The applications of pattern recognition techniques to problems of machine vision is the main focus for this course. Topics covered include, an overview of problems of machine vision and pattern classification, image formation and processing, feature extraction from images, biological object recognition, bayesian decision theory, and clustering. The applications of pattern recognition techniques to problems of machine vision is the main focus for this course. Topics covered include, an overview of problems of machine vision and pattern classification, image formation and processing, feature extraction from images, biological object recognition, bayesian decision theory, and clustering.Subjects
comonent analysis | comonent analysis | PCA | PCA | ICA | ICA | fourier analysis | fourier analysis | vision | vision | machine vision | machine vision | pattern matching | pattern matching | pattern analysis | pattern analysis | pattern recognition | pattern recognition | scene analysis | scene analysis | tracking | tracking | feature extraction | feature extraction | color | color | color space | color space | clustering | clustering | bayesian decisions | bayesian decisions | gesture recognition | gesture recognition | action recognition | action recognition | image processing | image processing | image formation | image formation | density estimation | density estimation | classification | classification | morphable models | morphable models | component analysis | component analysisLicense
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.htmSite sourced from
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See all metadata18.304 Undergraduate Seminar in Discrete Mathematics (MIT)
Description
This course is a student-presented seminar in combinatorics, graph theory, and discrete mathematics in general. Instruction and practice in written and oral communication is emphasized, with participants reading and presenting papers from recent mathematics literature and writing a final paper in a related topic.Subjects
discrete math; discrete mathematics; discrete; math; mathematics; seminar; presentations; student presentations; oral; communication; stable marriage; dych; emergency; response vehicles; ambulance; game theory; congruences; color theorem; four color; cake cutting; algorithm; RSA; encryption; numberical integration; sorting; post correspondence problem; PCP; ramsey; van der waals; fibonacci; recursion; domino; tiling; towers; hanoi; pigeonhole; principle; matrix; hamming; code; hat game; juggling; zero-knowledge; proof; repeated games; lewis carroll; determinants; infinitude of primes; bridges; konigsberg; koenigsberg; time series analysis; GARCH; rational; recurrence; relations; digital; image; compression; quantum computing | discrete math | discrete mathematics | discrete | math | mathematics | seminar | presentations | student presentations | oral | communication | stable marriage | dych | emergency | response vehicles | ambulance | game theory | congruences | color theorem | four color | cake cutting | algorithm | RSA | encryption | numberical integration | sorting | post correspondence problem | PCP | ramsey | van der waals | fibonacci | recursion | domino | tiling | towers | hanoi | pigeonhole | principle | matrix | hamming | code | hat game | juggling | zero-knowledge | proof | repeated games | lewis carroll | determinants | infinitude of primes | bridges | konigsberg | koenigsberg | time series analysis | GARCH | rational | recurrence | relations | digital | image | compression | quantum computingLicense
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.htmSite sourced from
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See all metadata4.430 Daylighting (MIT) 4.430 Daylighting (MIT)
Description
This class provides the tools necessary for an efficient integration of daylighting issues in the overall design of a building. The fundamentals of daylighting and electric lighting are introduced and their relevance to design decisions emphasized: benefits and availability of daylight, solar radiation and sun course, photometry, vision and color perception, daylighting metrics, visual and thermal comfort, electric lighting. More advanced topics are presented and practiced through the design project and homework assignments, such as primary and advanced lighting design strategies, and design and assessment tools for lighting management. This class provides the tools necessary for an efficient integration of daylighting issues in the overall design of a building. The fundamentals of daylighting and electric lighting are introduced and their relevance to design decisions emphasized: benefits and availability of daylight, solar radiation and sun course, photometry, vision and color perception, daylighting metrics, visual and thermal comfort, electric lighting. More advanced topics are presented and practiced through the design project and homework assignments, such as primary and advanced lighting design strategies, and design and assessment tools for lighting management.Subjects
daylighting | daylighting | efficient integration | efficient integration | design of a building | design of a building | electric lighting | electric lighting | solar radiation | solar radiation | sun course | sun course | photometry | photometry | vision and color perception | vision and color perception | daylighting metrics | daylighting metrics | visual and thermal comfort | visual and thermal comfort | advanced lighting design strategies | advanced lighting design strategies | lighting management | lighting managementLicense
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.htmSite sourced from
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6.831 introduces the principles of user interface development, focusing on three key areas: Design: How to design good user interfaces, starting with human capabilities (including the human information processor model, perception, motor skills, color, attention, and errors) and using those capabilities to drive design techniques: task analysis, user-centered design, iterative design, usability guidelines, interaction styles, and graphic design principles. Implementation: Techniques for building user interfaces, including low-fidelity prototypes, Wizard of Oz, and other prototyping tools; input models, output models, model-view-controller, layout, constraints, and toolkits. Evaluation: Techniques for evaluating and measuring interface usability, including heuristic evaluation, predicti 6.831 introduces the principles of user interface development, focusing on three key areas: Design: How to design good user interfaces, starting with human capabilities (including the human information processor model, perception, motor skills, color, attention, and errors) and using those capabilities to drive design techniques: task analysis, user-centered design, iterative design, usability guidelines, interaction styles, and graphic design principles. Implementation: Techniques for building user interfaces, including low-fidelity prototypes, Wizard of Oz, and other prototyping tools; input models, output models, model-view-controller, layout, constraints, and toolkits. Evaluation: Techniques for evaluating and measuring interface usability, including heuristic evaluation, predictiSubjects
human-computer interfaces | human-computer interfaces | human capabilities | human capabilities | human information processor | human information processor | perception | perception | Fitts's Law | Fitts's Law | color | color | hearing | hearing | task analysis | task analysis | user-centered design | user-centered design | iterative design | iterative design | low-fidelity prototyping | low-fidelity prototyping | heuristic evaluation | heuristic evaluation | keystroke-level models | keystroke-level models | formative evaluation | formative evaluation | input models | input models | output models | output models | model-view-controller | model-view-controller | toolkits | toolkits | programming project | programming project | GUI | GUI | Java | JavaLicense
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.htmSite sourced from
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See all metadata9.01 Introduction to Neuroscience (MIT) 9.01 Introduction to Neuroscience (MIT)
Description
This course begins with the study of nerve cells which includes their structure, the propagation of nerve impulses and transfer of information between nerve cells, the effect of drugs on this process, and the development of nerve cells into the brain and spinal cord. Next, sensory systems such as hearing, vision and touch are covered as well as a discussion on how physical energy such as light is converted into neural signals, where these signals travel in the brain and how they are processed. Other topics include the control of voluntary movement, the neurochemical bases of brain diseases, and those systems which control sleep and consciousness, learning and memory. This course begins with the study of nerve cells which includes their structure, the propagation of nerve impulses and transfer of information between nerve cells, the effect of drugs on this process, and the development of nerve cells into the brain and spinal cord. Next, sensory systems such as hearing, vision and touch are covered as well as a discussion on how physical energy such as light is converted into neural signals, where these signals travel in the brain and how they are processed. Other topics include the control of voluntary movement, the neurochemical bases of brain diseases, and those systems which control sleep and consciousness, learning and memory.Subjects
neuroscience | neuroscience | vision | vision | hearing | hearing | neuroanatomy | neuroanatomy | color vision | color vision | blind spot | blind spot | retinal phototransduction | retinal phototransduction | center-surround receptive fields | center-surround receptive fields | corticalmaps | corticalmaps | primary visual cortex | primary visual cortex | simple cells | simple cells | complex cells | complex cells | extrastriate cortex | extrastriate cortex | ear | ear | cochlea | cochlea | basilar membrane | basilar membrane | auditory transduction | auditory transduction | hair cells | hair cells | phase-locking | phase-locking | tonotopy | tonotopy | sound localization | sound localization | auditory cortex | auditory cortex | somatosensory system | somatosensory system | motor system | motor system | synaptic transmission | synaptic transmission | action potential | action potential | sympathetic neurons | sympathetic neurons | parasympathetic neurons | parasympathetic neurons | cellual neurophysiology | cellual neurophysiology | learning | learning | memory | memoryLicense
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.htmSite sourced from
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See all metadata9.04 Neural Basis of Vision and Audtion (MIT) 9.04 Neural Basis of Vision and Audtion (MIT)
Description
This course is designed to ground the undergraduate student in the fields of vision and audition, which includes both speech and hearing. The neural bases of visual and auditory processing for perception and sensorimotor control is examined. Topics focus on physiological and anatomical studies of the mammalian nervous system as well as behavioral studies of animals and humans. Studies in visual pattern, color and depth perception, auditory responses and speech coding, and spatial localization are also covered. This course is designed to ground the undergraduate student in the fields of vision and audition, which includes both speech and hearing. The neural bases of visual and auditory processing for perception and sensorimotor control is examined. Topics focus on physiological and anatomical studies of the mammalian nervous system as well as behavioral studies of animals and humans. Studies in visual pattern, color and depth perception, auditory responses and speech coding, and spatial localization are also covered.Subjects
visual system | visual system | eye-movement control | eye-movement control | retina | retina | lateral geniculate nucleus | lateral geniculate nucleus | visual cortex | visual cortex | the parallel channels | the parallel channels | color | color | motion | motion | depth | depth | form | form | neural control | neural control | visually guided eye movements | visually guided eye movements | middle ear | middle ear | cochlear | cochlear | otoacoustic emissions | otoacoustic emissions | cochlear ultrastructure and neuroanatomy | cochlear ultrastructure and neuroanatomy | cochlear ion homeostasis and synaptic transmission | cochlear ion homeostasis and synaptic transmission | noise-induced and age-related hearing loss | noise-induced and age-related hearing loss | neural degeneration | neural degeneration | neurophysiological | neurophysiological | ascending | ascending | descending | descending | auditory pathways auditory nerve | auditory pathways auditory nerve | cochlear nucleus | cochlear nucleus | inferior colliculus | inferior colliculus | olivocochlear system | olivocochlear system | functional brain imaging | functional brain imaging | tinnitus | tinnitusLicense
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.htmSite sourced from
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See all metadata9.04 Neural Basis of Vision and Audition (MIT) 9.04 Neural Basis of Vision and Audition (MIT)
Description
Examines the neural bases of visual and auditory processing for perception and sensorimotor control. Focuses on physiological and anatomical studies of the mammalian nervous system as well as behavioral studies of animals and humans. Studies visual pattern, color and depth perception, auditory responses and speech coding, and spatial localization. Offered alternate years. Examines the neural bases of visual and auditory processing for perception and sensorimotor control. Focuses on physiological and anatomical studies of the mammalian nervous system as well as behavioral studies of animals and humans. Studies visual pattern, color and depth perception, auditory responses and speech coding, and spatial localization. Offered alternate years.Subjects
visual system | visual system | eye-movement control | eye-movement control | retina | retina | lateral geniculate nucleus | lateral geniculate nucleus | visual cortex | visual cortex | the parallel channels | the parallel channels | color | color | motion | motion | depth | depth | form | form | neural control | neural control | visually guided eye movements | visually guided eye movements | middle ear | middle ear | cochlear | cochlear | otoacoustic emissions | otoacoustic emissions | cochlear ultrastructure and neuroanatomy | cochlear ultrastructure and neuroanatomy | cochlear ion homeostasis and synaptic transmission | cochlear ion homeostasis and synaptic transmission | noise-induced and age-related hearing loss | noise-induced and age-related hearing loss | neural degeneration | neural degeneration | neurophysiological | neurophysiological | ascending | ascending | descending | descending | auditory pathways auditory nerve | auditory pathways auditory nerve | cochlear nucleus | cochlear nucleus | inferior colliculus | inferior colliculus | olivocochlear system | olivocochlear system | functional brain imaging | functional brain imaging | tinnitus | tinnitusLicense
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.htmSite sourced from
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See all metadata9.036 The Visual System (MIT) 9.036 The Visual System (MIT)
Description
In this seminar anatomical, neurophysiological, imaging and behavioral research will be examined in an attempt to gain a better understanding of how information is processed in the primate visual system. The first five sessions provide an overview of the functional and structural organization of the visual system with a critical examination of some of the basic issues in the field. Thereafter the emphasis will shift to the question of how various aspects of the visual scene are processed in the visual system. We will study color vision, adaptation, the role of eye movements in carrying out visual analysis, motion perception, depth perception and pattern perception. In this seminar anatomical, neurophysiological, imaging and behavioral research will be examined in an attempt to gain a better understanding of how information is processed in the primate visual system. The first five sessions provide an overview of the functional and structural organization of the visual system with a critical examination of some of the basic issues in the field. Thereafter the emphasis will shift to the question of how various aspects of the visual scene are processed in the visual system. We will study color vision, adaptation, the role of eye movements in carrying out visual analysis, motion perception, depth perception and pattern perception.Subjects
anatomical | anatomical | neurophysiological | neurophysiological | imaging | imaging | behavior | behavior | functional | functional | structural organization | structural organization | visual scene | visual scene | processing | processing | visual system | visual system | color vision | color vision | adaptation | adaptation | eye movements | eye movements | motion perception | motion perception | depth perception | depth perception | pattern perception | pattern perception | visual analysis | visual analysisLicense
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.htmSite sourced from
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See all metadata9.35 Sensation and Perception (MIT) 9.35 Sensation and Perception (MIT)
Description
This course studies how senses work and how physical stimuli get transformed into signals in the nervous system. Students examine how the brain uses those signals to determine what's out there in the world. All the senses are discussed but vision is covered most extensively, with topics including the perception of color, motion, form, and depth. Graduate students are expected to complete additional work. This course studies how senses work and how physical stimuli get transformed into signals in the nervous system. Students examine how the brain uses those signals to determine what's out there in the world. All the senses are discussed but vision is covered most extensively, with topics including the perception of color, motion, form, and depth. Graduate students are expected to complete additional work.Subjects
senses | senses | stimuli | stimuli | system | system | vision | vision | perception | perception | color | color | motion | motion | form | form | depth | depthLicense
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.htmSite sourced from
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This class, required of all Master of Architecture students, presents a critical review of works, theories, and polemics in architecture in the aftermath of World War II. The aim is to present a historical understanding of the period, and to develop a meaningful framework to assess contemporary issues in architecture. Special attention will be paid to historiographic questions of how architects construe the terms of their "present." This class, required of all Master of Architecture students, presents a critical review of works, theories, and polemics in architecture in the aftermath of World War II. The aim is to present a historical understanding of the period, and to develop a meaningful framework to assess contemporary issues in architecture. Special attention will be paid to historiographic questions of how architects construe the terms of their "present."Subjects
architecture | architecture | theory | theory | practice | practice | globalization | globalization | historiography | historiography | phenomenology | phenomenology | nationalism | nationalism | color | color | drawing | drawing | ornament | ornament | structure | structure | construction | construction | material | material | inhabitation | inhabitation | gender | gender | class | class | race | race | design | design | modernism | modernism | classicism | classicism | philosophy | philosophy | works | works | polemics | polemicsLicense
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.htmSite sourced from
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This class is a general study of modern architecture as a response to important technological, cultural, environmental, aesthetic, and theoretical challenges after the European Enlightenment. It focuses on the theoretical, historiographic, and design approaches to architectural problems encountered in the age of industrial and post-industrial expansion across the globe, with specific attention to the dominance of European modernism in setting the agenda for the discourse of a global modernity at large. It explores modern architectural history through thematic exposition rather than as a simple chronological succession of ideas. This class is a general study of modern architecture as a response to important technological, cultural, environmental, aesthetic, and theoretical challenges after the European Enlightenment. It focuses on the theoretical, historiographic, and design approaches to architectural problems encountered in the age of industrial and post-industrial expansion across the globe, with specific attention to the dominance of European modernism in setting the agenda for the discourse of a global modernity at large. It explores modern architectural history through thematic exposition rather than as a simple chronological succession of ideas.Subjects
architecture | architecture | theory | theory | practice | practice | globalization | globalization | historiography | historiography | phenomenology | phenomenology | nationalism | nationalism | color | color | drawing | drawing | ornament | ornament | structure | structure | construction | construction | material | material | inhabitation | inhabitation | gender | gender | class | class | race | race | design | design | modernism | modernism | classicism | classicism | philosophy | philosophyLicense
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.htmSite sourced from
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See all metadataía Animal (2009) ía Animal (2009)
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Subjects
ía animal | ía animal | hipoxia | hipoxia | temperatura | temperatura | ón | ón | cambio de color | cambio de color | étricas | étricas | ía | ía | adaptaciones funcionales | adaptaciones funcionales | bioluminiscencia | bioluminiscencia | ógicos | ógicosLicense
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See all metadata9.35 Sensation And Perception (MIT) 9.35 Sensation And Perception (MIT)
Description
This course provides an introduction to important philosophical questions about the mind, specifically those that are intimately connected with contemporary psychology and neuroscience. Are our concepts innate, or are they acquired by experience? (And what does it even mean to call a concept 'innate'?) Are 'mental images' pictures in the head? Is color in the mind or in the world? Is the mind nothing more than the brain? Can there be a science of consciousness? The course will include guest lectures by Professors. This course provides an introduction to important philosophical questions about the mind, specifically those that are intimately connected with contemporary psychology and neuroscience. Are our concepts innate, or are they acquired by experience? (And what does it even mean to call a concept 'innate'?) Are 'mental images' pictures in the head? Is color in the mind or in the world? Is the mind nothing more than the brain? Can there be a science of consciousness? The course will include guest lectures by Professors.Subjects
vision | vision | sensation | sensation | perception | perception | psychophysics | psychophysics | illusion | illusion | depth | depth | parallax | parallax | motion | motion | occlusion | occlusion | matching | matching | recognition | recognition | smell | smell | taste | taste | hearing | hearing | perspective | perspective | sight | sight | figure | figure | ground | ground | completion | completion | modal | modal | senses | senses | stimuli | stimuli | system | system | color | color | form | form | depth. | depth.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.htmSite sourced from
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See all metadata9.01 Introduction to Neuroscience (MIT) 9.01 Introduction to Neuroscience (MIT)
Description
This course is an introduction to the mammalian nervous system, with emphasis on the structure and function of the human brain. Topics include the function of nerve cells, sensory systems, control of movement, learning and memory, and diseases of the brain. This course is an introduction to the mammalian nervous system, with emphasis on the structure and function of the human brain. Topics include the function of nerve cells, sensory systems, control of movement, learning and memory, and diseases of the brain.Subjects
neuroscience | neuroscience | vision | vision | hearing | hearing | neuroanatomy | neuroanatomy | color vision | color vision | blind spot | blind spot | retinal phototransduction | retinal phototransduction | cortical maps | cortical maps | primary visual cortex | primary visual cortex | complex cells | complex cells | extrastriate cortex | extrastriate cortex | ear | ear | cochlea | cochlea | basilar membrane | basilar membrane | auditory transduction | auditory transduction | hair cells | hair cells | phase-locking | phase-locking | sound localization | sound localization | auditory cortex | auditory cortex | somatosensory system | somatosensory system | motor system | motor system | synaptic transmission | synaptic transmission | action potential | action potential | sympathetic neurons | sympathetic neurons | parasympathetic neurons | parasympathetic neurons | cellual neurophysiology | cellual neurophysiology | learning | learning | memory | memoryLicense
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.htmSite sourced from
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See all metadata9.036 The Visual System (MIT) 9.036 The Visual System (MIT)
Description
This comprehensive course on the visual system is designed to ground future researchers in the field of visual science and to provide scientists with an excellent basis for using the visual system as a model in research. In this graduate seminar, anatomical, neurophysiological, imaging and behavioral research is examined in an attempt to gain a better understanding of how information is processed in the primate visual system. This comprehensive course on the visual system is designed to ground future researchers in the field of visual science and to provide scientists with an excellent basis for using the visual system as a model in research. In this graduate seminar, anatomical, neurophysiological, imaging and behavioral research is examined in an attempt to gain a better understanding of how information is processed in the primate visual system.Subjects
anatomical | anatomical | neurophysiological | neurophysiological | imaging | imaging | behavior | behavior | functional | functional | structural organization | structural organization | visual scene | visual scene | processing | processing | visual system | visual system | color vision | color vision | adaptation | adaptation | eye movements | eye movements | visual analysis | visual analysis | motion perception | motion perception | depth perception | depth perception | pattern perception | pattern perceptionLicense
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.htmSite sourced from
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See all metadata9.69 Foundations of Cognition (MIT) 9.69 Foundations of Cognition (MIT)
Description
Advances in cognitive science have resolved, clarified, and sometimes complicated some of the great questions of Western philosophy: what is the structure of the world and how do we come to know it; does everyone represent the world the same way; what is the best way for us to act in the world. Specific topics include color, objects, number, categories, similarity, inductive inference, space, time, causality, reasoning, decision-making, morality and consciousness. Readings and discussion include a brief philosophical history of each topic and focus on advances in cognitive and developmental psychology, computation, neuroscience, and related fields. At least one subject in cognitive science, psychology, philosophy, linguistics, or artificial intelligence is required. An additional project i Advances in cognitive science have resolved, clarified, and sometimes complicated some of the great questions of Western philosophy: what is the structure of the world and how do we come to know it; does everyone represent the world the same way; what is the best way for us to act in the world. Specific topics include color, objects, number, categories, similarity, inductive inference, space, time, causality, reasoning, decision-making, morality and consciousness. Readings and discussion include a brief philosophical history of each topic and focus on advances in cognitive and developmental psychology, computation, neuroscience, and related fields. At least one subject in cognitive science, psychology, philosophy, linguistics, or artificial intelligence is required. An additional project iSubjects
cognitive science | cognitive science | Western philosophy | Western philosophy | structure | structure | color | color | objects | objects | number | number | similarity | similarity | inductive inference | inductive inference | space | space | time | time | reasoning | reasoning | decision-making | decision-making | morality | morality | consciousness | consciousness | development | development | psychology | psychology | computation | computation | neuroscience | neuroscience | philosophy | philosophy | linguistics | linguistics | artificial intelligence | artificial intelligenceLicense
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.htmSite sourced from
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This seminar is intended for doctoral students and discusses topics in applied probability. This semester includes a variety of fields, namely statistical physics (local weak convergence and correlation decay), artificial intelligence (belief propagation algorithms), computer science (random K-SAT problem, coloring, average case complexity) and electrical engineering (low density parity check (LDPC) codes). This seminar is intended for doctoral students and discusses topics in applied probability. This semester includes a variety of fields, namely statistical physics (local weak convergence and correlation decay), artificial intelligence (belief propagation algorithms), computer science (random K-SAT problem, coloring, average case complexity) and electrical engineering (low density parity check (LDPC) codes).Subjects
doctoral | doctoral | seminar | seminar | applied probability | applied probability | stochastic processes | stochastic processes | statistical physics | statistical physics | artificial intelligence | artificial intelligence | computer science | computer science | belief propagation algorithms | belief propagation algorithms | K-SAT problem | K-SAT problem | coloring | coloring | average case complexity | average case complexity | low density parity check codes | low density parity check codesLicense
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.htmSite sourced from
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See all metadata9.036 The Visual System (MIT) 9.036 The Visual System (MIT)
Description
This comprehensive course on the visual system is designed to ground future researchers in the field of visual science and to provide scientists with an excellent basis for using the visual system as a model in research. In this graduate seminar, anatomical, neurophysiological, imaging and behavioral research is examined in an attempt to gain a better understanding of how information is processed in the primate visual system. This comprehensive course on the visual system is designed to ground future researchers in the field of visual science and to provide scientists with an excellent basis for using the visual system as a model in research. In this graduate seminar, anatomical, neurophysiological, imaging and behavioral research is examined in an attempt to gain a better understanding of how information is processed in the primate visual system.Subjects
anatomical | anatomical | neurophysiological | neurophysiological | imaging | imaging | behavior | behavior | functional | functional | structural organization | structural organization | visual scene | visual scene | processing | processing | visual system | visual system | color vision | color vision | adaptation | adaptation | eye movements | eye movements | visual analysis | visual analysis | motion perception | motion perception | depth perception | depth perception | pattern perception | pattern perceptionLicense
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.htmSite sourced from
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This class, required of all Master of Architecture students, presents a critical review of works, theories, and polemics in architecture in the aftermath of World War II. The aim is to present a historical understanding of the period, and to develop a meaningful framework to assess contemporary issues in architecture. Special attention will be paid to historiographic questions of how architects construe the terms of their "present." This class, required of all Master of Architecture students, presents a critical review of works, theories, and polemics in architecture in the aftermath of World War II. The aim is to present a historical understanding of the period, and to develop a meaningful framework to assess contemporary issues in architecture. Special attention will be paid to historiographic questions of how architects construe the terms of their "present."Subjects
architecture | architecture | theory | theory | practice | practice | globalization | globalization | historiography | historiography | phenomenology | phenomenology | nationalism | nationalism | color | color | drawing | drawing | ornament | ornament | structure | structure | construction | construction | material | material | inhabitation | inhabitation | gender | gender | class | class | race | race | design | design | modernism | modernism | classicism | classicism | philosophy | philosophy | works | works | polemics | polemicsLicense
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.htmSite sourced from
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