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15.564 Information Technology I (MIT) 15.564 Information Technology I (MIT)

Description

Information Technology I helps students understand technical concepts underlying current and future developments in information technology. There will be a special emphasis on networks and distributed computing. Students will also gain some hands-on exposure to powerful, high-level tools for making computers do amazing things, without the need for conventional programming languages. Since 15.564 is an introductory course, no knowledge of how computers work or are programmed is assumed. Information Technology I helps students understand technical concepts underlying current and future developments in information technology. There will be a special emphasis on networks and distributed computing. Students will also gain some hands-on exposure to powerful, high-level tools for making computers do amazing things, without the need for conventional programming languages. Since 15.564 is an introductory course, no knowledge of how computers work or are programmed is assumed.

Subjects

developing-country governments; international | developing-country governments; international | computers; future developments; networks;distributed computing; programming languages;firewall;e-business;computerarchitecture;operating systems;software development;database;user interface;telecommunication;data transmission;localarea network;wireless network;internet;world wide web;digital security | computers; future developments; networks;distributed computing; programming languages;firewall;e-business;computerarchitecture;operating systems;software development;database;user interface;telecommunication;data transmission;localarea network;wireless network;internet;world wide web;digital security | computers;future developments;networks;distributed computing;programming languages;firewall;e-business;computerarchitecture;operating systems;software development;database;user interface;telecommunication;data transmission;localarea network;wireless network;internet;world wide web;digital security | computers;future developments;networks;distributed computing;programming languages;firewall;e-business;computerarchitecture;operating systems;software development;database;user interface;telecommunication;data transmission;localarea network;wireless network;internet;world wide web;digital security | computers | computers | future developments | future developments | networks | networks | distributed computing | distributed computing | programming languages | programming languages | firewall | firewall | e-business | e-business | computer architecture | computer architecture | operating | operating | software development | software development | database | database | user interface | user interface | telecommunication | telecommunication | data transmission | data transmission | local area network | local area network | wireless network | wireless network | internet | internet | world wide web | world wide web | digital security | digital security | architecture | architecture | data | data | transmission | transmission | wireless | wireless | interface | interface | user | user | software | software | development | development | programming | programming | languages | languages | distributed | distributed | computing | computing | LAN | LAN | local | local | area | area | future | future | digital | digital | security | security | technology | technology | information | information | management | management | systems | systems | relational | relational | graphical | graphical | interfaces | interfaces | client/server | client/server | enterprise | enterprise | applications | applications | cryptography | cryptography | services | services | Microsoft | Microsoft | Access | Access | Lotus Notes | Lotus Notes | processing | processing | memory | memory | I/O | I/O | CPU | CPU | OS | OS | hardware | hardware | compression | compression | SQL | SQL | queries | queries | design | design | WAN | WAN | wide | wide | Ethernet | Ethernet | packet-switched | packet-switched | peer-to-peer | peer-to-peer | WWW | WWW | public | public | key | key | mining | mining | warehousing | warehousing | concepts | concepts | conceptual | conceptual | modern computing | modern computing | information management | information management | operating systems | operating systems | relational database systems | relational database systems | graphical user interfaces | graphical user interfaces | client/server systems | client/server systems | enterprise applications | enterprise applications | web.internet services | web.internet services | Microsoft Access | Microsoft Access | database management systems | database management systems | information technology | information technology | telecommunications | telecommunications | eBusiness applications | eBusiness applications | client | client | servers | servers | wireless area network | wireless area network

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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15.564 Information Technology I (MIT)

Description

Information Technology I helps students understand technical concepts underlying current and future developments in information technology. There will be a special emphasis on networks and distributed computing. Students will also gain some hands-on exposure to powerful, high-level tools for making computers do amazing things, without the need for conventional programming languages. Since 15.564 is an introductory course, no knowledge of how computers work or are programmed is assumed.

Subjects

developing-country governments; international | computers; future developments; networks;distributed computing; programming languages;firewall;e-business;computerarchitecture;operating systems;software development;database;user interface;telecommunication;data transmission;localarea network;wireless network;internet;world wide web;digital security | computers;future developments;networks;distributed computing;programming languages;firewall;e-business;computerarchitecture;operating systems;software development;database;user interface;telecommunication;data transmission;localarea network;wireless network;internet;world wide web;digital security | computers | future developments | networks | distributed computing | programming languages | firewall | e-business | computer architecture | operating | software development | database | user interface | telecommunication | data transmission | local area network | wireless network | internet | world wide web | digital security | architecture | data | transmission | wireless | interface | user | software | development | programming | languages | distributed | computing | LAN | local | area | future | digital | security | technology | information | management | systems | relational | graphical | interfaces | client/server | enterprise | applications | cryptography | services | Microsoft | Access | Lotus Notes | processing | memory | I/O | CPU | OS | hardware | compression | SQL | queries | design | WAN | wide | Ethernet | packet-switched | peer-to-peer | WWW | public | key | mining | warehousing | concepts | conceptual | modern computing | information management | operating systems | relational database systems | graphical user interfaces | client/server systems | enterprise applications | web.internet services | Microsoft Access | database management systems | information technology | telecommunications | eBusiness applications | client | servers | wireless area network

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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15.564 Information Technology I (MIT)

Description

Information Technology I helps students understand technical concepts underlying current and future developments in information technology. There will be a special emphasis on networks and distributed computing. Students will also gain some hands-on exposure to powerful, high-level tools for making computers do amazing things, without the need for conventional programming languages. Since 15.564 is an introductory course, no knowledge of how computers work or are programmed is assumed.

Subjects

developing-country governments; international | computers; future developments; networks;distributed computing; programming languages;firewall;e-business;computerarchitecture;operating systems;software development;database;user interface;telecommunication;data transmission;localarea network;wireless network;internet;world wide web;digital security | computers;future developments;networks;distributed computing;programming languages;firewall;e-business;computerarchitecture;operating systems;software development;database;user interface;telecommunication;data transmission;localarea network;wireless network;internet;world wide web;digital security | computers | future developments | networks | distributed computing | programming languages | firewall | e-business | computer architecture | operating | software development | database | user interface | telecommunication | data transmission | local area network | wireless network | internet | world wide web | digital security | architecture | data | transmission | wireless | interface | user | software | development | programming | languages | distributed | computing | LAN | local | area | future | digital | security | technology | information | management | systems | relational | graphical | interfaces | client/server | enterprise | applications | cryptography | services | Microsoft | Access | Lotus Notes | processing | memory | I/O | CPU | OS | hardware | compression | SQL | queries | design | WAN | wide | Ethernet | packet-switched | peer-to-peer | WWW | public | key | mining | warehousing | concepts | conceptual | modern computing | information management | operating systems | relational database systems | graphical user interfaces | client/server systems | enterprise applications | web.internet services | Microsoft Access | database management systems | information technology | telecommunications | eBusiness applications | client | servers | wireless area network

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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15.564 Information Technology I (MIT)

Description

Information Technology I helps students understand technical concepts underlying current and future developments in information technology. There will be a special emphasis on networks and distributed computing. Students will also gain some hands-on exposure to powerful, high-level tools for making computers do amazing things, without the need for conventional programming languages. Since 15.564 is an introductory course, no knowledge of how computers work or are programmed is assumed.

Subjects

developing-country governments; international | computers; future developments; networks;distributed computing; programming languages;firewall;e-business;computerarchitecture;operating systems;software development;database;user interface;telecommunication;data transmission;localarea network;wireless network;internet;world wide web;digital security | computers;future developments;networks;distributed computing;programming languages;firewall;e-business;computerarchitecture;operating systems;software development;database;user interface;telecommunication;data transmission;localarea network;wireless network;internet;world wide web;digital security | computers | future developments | networks | distributed computing | programming languages | firewall | e-business | computer architecture | operating | software development | database | user interface | telecommunication | data transmission | local area network | wireless network | internet | world wide web | digital security | architecture | data | transmission | wireless | interface | user | software | development | programming | languages | distributed | computing | LAN | local | area | future | digital | security | technology | information | management | systems | relational | graphical | interfaces | client/server | enterprise | applications | cryptography | services | Microsoft | Access | Lotus Notes | processing | memory | I/O | CPU | OS | hardware | compression | SQL | queries | design | WAN | wide | Ethernet | packet-switched | peer-to-peer | WWW | public | key | mining | warehousing | concepts | conceptual | modern computing | information management | operating systems | relational database systems | graphical user interfaces | client/server systems | enterprise applications | web.internet services | Microsoft Access | database management systems | information technology | telecommunications | eBusiness applications | client | servers | wireless area network

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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2.76 Multi-Scale System Design (MIT) 2.76 Multi-Scale System Design (MIT)

Description

Multi-scale systems (MuSS) consist of components from two or more length scales (nano, micro, meso, or macro-scales). In MuSS, the engineering modeling, design principles, and fabrication processes of the components are fundamentally different. The challenge is to make these components so they are conceptually and model-wise compatible with other-scale components with which they interface. This course covers the fundamental properties of scales, design theories, modeling methods and manufacturing issues which must be addressed in these systems. Examples of MuSS include precision instruments, nanomanipulators, fiber optics, micro/nano-photonics, nanorobotics, MEMS (piezoelectric driven manipulators and optics), X-Ray telescopes and carbon nano-tube assemblies. Students master the materials Multi-scale systems (MuSS) consist of components from two or more length scales (nano, micro, meso, or macro-scales). In MuSS, the engineering modeling, design principles, and fabrication processes of the components are fundamentally different. The challenge is to make these components so they are conceptually and model-wise compatible with other-scale components with which they interface. This course covers the fundamental properties of scales, design theories, modeling methods and manufacturing issues which must be addressed in these systems. Examples of MuSS include precision instruments, nanomanipulators, fiber optics, micro/nano-photonics, nanorobotics, MEMS (piezoelectric driven manipulators and optics), X-Ray telescopes and carbon nano-tube assemblies. Students master the materials

Subjects

scale | scale | complexity | complexity | nano | micro | meso | or macro-scale | nano | micro | meso | or macro-scale | kinematics | kinematics | metrology | metrology | engineering modeling | motion | engineering modeling | motion | modeling | modeling | design | design | manufacture | manufacture | design principles | design principles | fabrication process | fabrication process | functional requirements | functional requirements | precision instruments | precision instruments | nanomanipulators | fiber optics | micro- photonics | nano-photonics | nanorobotics | MEMS | nanomanipulators | fiber optics | micro- photonics | nano-photonics | nanorobotics | MEMS | piezoelectric | transducer | actuator | sensor | piezoelectric | transducer | actuator | sensor | constraint | rigid constraint | flexible constraint | ride-flexible constraint | constraint | rigid constraint | flexible constraint | ride-flexible constraint | constaint-based design | constaint-based design | carbon nanotube | carbon nanotube | nanowire | nanowire | scanning tunneling microscope | scanning tunneling microscope | flexure | flexure | protein structure | protein structure | polymer structure | polymer structure | nanopelleting | nanopipette | nanowire | nanopelleting | nanopipette | nanowire | TMA pixel array | TMA pixel array | error modeling | error modeling | repeatability | repeatability

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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15.020 Competition in Telecommunications (MIT) 15.020 Competition in Telecommunications (MIT)

Description

Competition in Telecommunications provides an introduction to the economics, business strategies, and technology of telecommunications markets. This includes markets for wireless communications, local and long-distance services, and customer equipment. The convergence of computers, cable TV and telecommunications and the competitive emergence of the Internet are covered in depth. A number of speakers from leading companies in the industry will give course lectures. Competition in Telecommunications provides an introduction to the economics, business strategies, and technology of telecommunications markets. This includes markets for wireless communications, local and long-distance services, and customer equipment. The convergence of computers, cable TV and telecommunications and the competitive emergence of the Internet are covered in depth. A number of speakers from leading companies in the industry will give course lectures.

Subjects

telephone | telephone | Internet | Internet | communications | communications | economics | economics | business strategy | business strategy | technologies | technologies | wireless | wireless | convergence | convergence | cable television | cable television | governmental regulations | governmental regulations | public policy | public policy | evolution of technology | evolution of technology | computer hardware and software | computer hardware and software | VoIP | VoIP | data and voice traffic | data and voice traffic | network integration | network integration | deregulation | deregulation | cell phones | cell phones | WiFi | WiFi | Internet commerce | Internet commerce | spectrum auctions | spectrum auctions | telecommunications markets | telecommunications markets | competition | competition | wireless communications | wireless communications | long-distance services | long-distance services | computers | computers | satellite TV | satellite TV | telecommunications industry | telecommunications industry | regulation | regulation | technology | technology | market structures | market structures | data traffic | data traffic | voice traffic | voice traffic

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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18.996 Random Matrix Theory and Its Applications (MIT) 18.996 Random Matrix Theory and Its Applications (MIT)

Description

This course is an introduction to the basics of random matrix theory, motivated by engineering and scientific applications. This course is an introduction to the basics of random matrix theory, motivated by engineering and scientific applications.

Subjects

Random matrix theory | Random matrix theory | Matrix Jacobians | Matrix Jacobians | Wishart Matrices | Wishart Matrices | Wigner's Semi-Circular laws | Wigner's Semi-Circular laws | Matrix beta ensembles | Matrix beta ensembles | free probability | free probability | spherical coordinates | spherical coordinates | wedging | wedging | Plucker coordinates | Plucker coordinates | matrix factorizations | matrix factorizations | householder transformations | householder transformations | Stiefel manifold | Stiefel manifold | Cauchey-Binet theorem | Cauchey-Binet theorem | Telatar's paper | Telatar's paper | level densities | level densities | orthogonal polynomials | orthogonal polynomials | matrix integrals | matrix integrals | hypergeometric functions | hypergeometric functions | wireless communictions | wireless communictions | eigenvalue density | eigenvalue density | sample covariance matrices | sample covariance matrices | Marcenko-Pastur theorem | Marcenko-Pastur theorem | wireless communications | wireless communications

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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ICTs: device to device communication

Description

Are you a technophobe? Bluetooth, Ethernet WiFi – are they terms that mean nothing to you? This unit will gently guide you to an understanding of how devices 'talk' to each other and what technologies and processes are involved. You will also look at wired and wireless communication technologies, introducing you to some of the key methods involved.

Subjects

it and computing | devices | ethernet | signals | technologies | wired | wired_networks | wireless_networks | Education | X000

License

Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales http://creativecommons.org/licenses/by-nc-sa/2.0/uk/ http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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6.013 Electromagnetics and Applications (MIT) 6.013 Electromagnetics and Applications (MIT)

Description

This course explores electromagnetic phenomena in modern applications, including wireless communications, circuits, computer interconnects and peripherals, optical fiber links and components, microwave communications and radar, antennas, sensors, micro-electromechanical systems, motors, and power generation and transmission. Fundamentals covered include: quasistatic and dynamic solutions to Maxwell's equations; waves, radiation, and diffraction; coupling to media and structures; guided and unguided waves; resonance; and forces, power, and energy.The instructors of this course extend a general acknowledgment to the many students and instructors who have made major contributions to the 6.013 course materials over the years, and apologize for any residual errors that may remain in these writ This course explores electromagnetic phenomena in modern applications, including wireless communications, circuits, computer interconnects and peripherals, optical fiber links and components, microwave communications and radar, antennas, sensors, micro-electromechanical systems, motors, and power generation and transmission. Fundamentals covered include: quasistatic and dynamic solutions to Maxwell's equations; waves, radiation, and diffraction; coupling to media and structures; guided and unguided waves; resonance; and forces, power, and energy.The instructors of this course extend a general acknowledgment to the many students and instructors who have made major contributions to the 6.013 course materials over the years, and apologize for any residual errors that may remain in these writ

Subjects

electromagnetics | electromagnetics | applications | applications | wireless communications | wireless communications | circuits | circuits | computer interconnects | computer interconnects | peripherals | peripherals | optical fiber links | optical fiber links | microwave | microwave | communications | communications | radar | radar | antennas | antennas | sensors | sensors | micro-electromechanical systems | micro-electromechanical systems | power generation | power generation | power transmission | power transmission | quasistatic solutions | quasistatic solutions | dynamic solutions | dynamic solutions | Maxwell | Maxwell | Maxwell's equations | Maxwell's equations | waves | waves | radiation | radiation | diffraction | diffraction | guided waves | guided waves | unguided waves | unguided waves | resonance | resonance | forces | forces | power | power | energy | energy | microwave communications | microwave communications

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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6.111 Introductory Digital Systems Laboratory (MIT) 6.111 Introductory Digital Systems Laboratory (MIT)

Description

6.111 covers digital design topics such as digital logic, flipflops, PALs, CPLDs, FPGAs, counters, timing, synchronization, and finite-state machines. The semester begins with lectures and problem sets, to introduce fundamental topics before students embark on lab assignments and ultimately, a digital design project. The students design and implement a final digital project of their choice, in areas such as games, music, digital filters, wireless communications, and graphics. The course relies on extensive use of Verilog® for describing and implementing digital logic designs. 6.111 covers digital design topics such as digital logic, flipflops, PALs, CPLDs, FPGAs, counters, timing, synchronization, and finite-state machines. The semester begins with lectures and problem sets, to introduce fundamental topics before students embark on lab assignments and ultimately, a digital design project. The students design and implement a final digital project of their choice, in areas such as games, music, digital filters, wireless communications, and graphics. The course relies on extensive use of Verilog® for describing and implementing digital logic designs.

Subjects

digital systems laboratory | digital systems laboratory | laboratory | laboratory | digital logic | digital logic | Boolean algebra | Boolean algebra | flip-flops | flip-flops | finite-state machines | finite-state machines | FSM | FSM | microprogrammed systems | microprogrammed systems | digital abstractions | digital abstractions | digital paradigm | digital paradigm | digital oscilloscopes | digital oscilloscopes | PAL | PAL | PROM | PROM | VHDL | VHDL | digital circuit design | digital circuit design | FPGA | FPGA | counters | counters | timing | timing | synchronization | synchronization | digital filters | digital filters | wireless communications | wireless communications | verilog | verilog | combinational logic | combinational logic | simple sequential circuits | simple sequential circuits | memories | memories | configurable logic | configurable logic

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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6.630 Electromagnetic Theory (MIT) 6.630 Electromagnetic Theory (MIT)

Description

6.630 is an introductory subject on electromagnetics, emphasizing fundamental concepts and applications of Maxwell equations. Topics covered include: polarization, dipole antennas, wireless communications, forces and energy, phase matching, dielectric waveguides and optical fibers, transmission line theory and circuit concepts, antennas, and equivalent principle. Examples deal with electrodynamics, propagation, guidance, and radiation of electromagnetic waves.Technical RequirementsMATLAB® software is required to run the .m files found on this course site. Media player software, such as QuickTime® Player, RealOne™ Player, or Windows Media® Player, is required to run the .mpeg files found on this course site. The latest version 6.630 is an introductory subject on electromagnetics, emphasizing fundamental concepts and applications of Maxwell equations. Topics covered include: polarization, dipole antennas, wireless communications, forces and energy, phase matching, dielectric waveguides and optical fibers, transmission line theory and circuit concepts, antennas, and equivalent principle. Examples deal with electrodynamics, propagation, guidance, and radiation of electromagnetic waves.Technical RequirementsMATLAB® software is required to run the .m files found on this course site. Media player software, such as QuickTime® Player, RealOne™ Player, or Windows Media® Player, is required to run the .mpeg files found on this course site. The latest version

Subjects

electromagnetics | electromagnetics | Maxwell | Maxwell | polarization | polarization | dipole antennas | dipole antennas | wireless communications | wireless communications | forces | forces | energy | energy | phase matching | phase matching | dielectric waveguides | dielectric waveguides | optical fibers | optical fibers | transmission line theory | transmission line theory | circuit | circuit | antennas | antennas | equivalent principle | equivalent principle | electrodynamics | electrodynamics | propagation | propagation | guidance | guidance | radiation | radiation | electromagnetic waves | electromagnetic waves

License

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Wireless Communications during the Titanic Disaster

Description

Michael Hughes (Bodleian Libraries) gives a talk about the final wireless communications from the Titanic. Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

sinking | disaster | bodleian | communication | titanic | wireless | radio | marconi | sinking | disaster | bodleian | communication | titanic | wireless | radio | marconi | 2012-04-26

License

http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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Interview: Peter Scott on Marconi and Radio Manufacturing

Description

Professor Peter Scott discusses his research into competitive advantage and innovation in the interwar British radio industry using the Marconi Archive, Britain's most extensive and important archive for the radio and related industries. The first Douglas Byrne Marconi Fellowship was awarded in 2011 to Professor Peter Scott, of the Henley Business School, University of Reading, for research into competitive advantage and innovation in the interwar British radio industry. Professor Scott will deliver the first Douglas Byrne Marconi Lecture on March 1, 2011. "The Marconi fellowship has provided me with the resources to undertake in-depth research using Britain's most extensive and important archive for the radio and related industries", says Professor Scott. "The Marconi collection shed Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

ww1 | monopoly | interwar | ww2 | wireless | radio | marconi | world war | technology | history | ww1 | monopoly | interwar | ww2 | wireless | radio | marconi | world war | technology | history | 2011-03-01

License

http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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Radio Manufacturing in the Interwar Years

Description

Professor Peter Scott (University of Reading) presents the inaugural Douglas Byrne Marconi Lecture based on his research on Marconi and radio manufacturing between the World Wars. Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

ww1 | monopoly | interwar | ww2 | wireless | radio | marconi | world war | technology | history | ww1 | monopoly | interwar | ww2 | wireless | radio | marconi | world war | technology | history | 2011-03-01

License

http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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Radio Manufacturing in the Interwar Years

Description

Professor Peter Scott (University of Reading) presents the inaugural Douglas Byrne Marconi Lecture based on his research on Marconi and radio manufacturing between the World Wars. Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

ww1 | monopoly | interwar | ww2 | wireless | radio | marconi | world war | technology | history | ww1 | monopoly | interwar | ww2 | wireless | radio | marconi | world war | technology | history | 2011-03-01

License

http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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2.996 Biomedical Devices Design Laboratory (MIT) 2.996 Biomedical Devices Design Laboratory (MIT)

Description

This course provides intensive coverage of the theory and practice of electromechanical instrument design with application to biomedical devices. Students will work with MGH doctors to develop new medical products from concept to prototype development and testing. Lectures will present techniques for designing electronic circuits as part of complete sensor systems. Topics covered include: basic electronics circuits, principles of accuracy, op amp circuits, analog signal conditioning, power supplies, microprocessors, wireless communications, sensors, and sensor interface circuits. Labs will cover practical printed circuit board (PCB) design including component selection, PCB layout, assembly, and planning and budgeting for large projects. Problem sets and labs in the first six weeks are in This course provides intensive coverage of the theory and practice of electromechanical instrument design with application to biomedical devices. Students will work with MGH doctors to develop new medical products from concept to prototype development and testing. Lectures will present techniques for designing electronic circuits as part of complete sensor systems. Topics covered include: basic electronics circuits, principles of accuracy, op amp circuits, analog signal conditioning, power supplies, microprocessors, wireless communications, sensors, and sensor interface circuits. Labs will cover practical printed circuit board (PCB) design including component selection, PCB layout, assembly, and planning and budgeting for large projects. Problem sets and labs in the first six weeks are in

Subjects

biomedical devices | biomedical devices | electrical engineering in medicine | electrical engineering in medicine | basic electronic circuits | basic electronic circuits | op amp | op amp | op amp circuits | op amp circuits | analog signal conditioning | analog signal conditioning | microprocessors | microprocessors | wireless communication | wireless communication | PCB design | PCB design | printed circuit board | printed circuit board | microprocessor programming | microprocessor programming

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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6.450 Principles of Digital Communication I (MIT) 6.450 Principles of Digital Communication I (MIT)

Description

The course serves as an introduction to the theory and practice behind many of today's communications systems. 6.450 forms the first of a two-course sequence on digital communication. The second class, 6.451 Principles of Digital Communication II, is offered in the spring. Topics covered include: digital communications at the block diagram level, data compression, Lempel-Ziv algorithm, scalar and vector quantization, sampling and aliasing, the Nyquist criterion, PAM and QAM modulation, signal constellations, finite-energy waveform spaces, detection, and modeling and system design for wireless communication. The course serves as an introduction to the theory and practice behind many of today's communications systems. 6.450 forms the first of a two-course sequence on digital communication. The second class, 6.451 Principles of Digital Communication II, is offered in the spring. Topics covered include: digital communications at the block diagram level, data compression, Lempel-Ziv algorithm, scalar and vector quantization, sampling and aliasing, the Nyquist criterion, PAM and QAM modulation, signal constellations, finite-energy waveform spaces, detection, and modeling and system design for wireless communication.

Subjects

digital communication | digital communication | data compression | data compression | Lempel-Ziv algorithm | Lempel-Ziv algorithm | scalar quantization | scalar quantization | vector quantization | vector quantization | sampling | sampling | aliasing | aliasing | Nyquist criterion | Nyquist criterion | PAM modulation | PAM modulation | QAM modulation | QAM modulation | signal constellations | signal constellations | finite-energy waveform spaces | finite-energy waveform spaces | detection | detection | communication system design | communication system design | wireless | wireless | discrete source encoding | discrete source encoding | memory-less sources | memory-less sources | entropy | entropy | asymptotic equipartition property | asymptotic equipartition property | Fourier series | Fourier series | Fourier transforms | Fourier transforms | sampling theorem | sampling theorem | orthonormal expansions | orthonormal expansions | random processes | random processes | linear functionals | linear functionals | theorem of irrelevance | theorem of irrelevance | Doppler spread | Doppler spread | time spread | time spread | coherence time | coherence time | coherence frequency | coherence frequency | Rayleigh fading | Rayleigh fading | Rake receivers | Rake receivers | CDMA | CDMA | code division multiple access | code division multiple access

License

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6.111 Introductory Digital Systems Laboratory (MIT) 6.111 Introductory Digital Systems Laboratory (MIT)

Description

6.111 is reputed to be one of the most demanding classes at MIT, exhausting many students' time and creativity. The course covers digital design topics such as digital logic, sequential building blocks, finite-state machines, FPGAs, timing and synchronization. The semester begins with lectures and problem sets, to introduce fundamental topics before students embark on lab assignments and ultimately, a digital design project. The students design and implement a final digital project of their choice, in areas such as games, music, digital filters, wireless communications, video, and graphics. The course relies on extensive use of Verilog® for describing and implementing digital logic designs on state-of-the-art FPGA. 6.111 is reputed to be one of the most demanding classes at MIT, exhausting many students' time and creativity. The course covers digital design topics such as digital logic, sequential building blocks, finite-state machines, FPGAs, timing and synchronization. The semester begins with lectures and problem sets, to introduce fundamental topics before students embark on lab assignments and ultimately, a digital design project. The students design and implement a final digital project of their choice, in areas such as games, music, digital filters, wireless communications, video, and graphics. The course relies on extensive use of Verilog® for describing and implementing digital logic designs on state-of-the-art FPGA.

Subjects

digital systems laboratory | digital systems laboratory | laboratory | laboratory | digital logic | digital logic | Boolean algebra | Boolean algebra | flip-flops | flip-flops | finite-state machines | finite-state machines | FSM | FSM | microprogrammed systems | microprogrammed systems | digital abstractions | digital abstractions | digital paradigm | digital paradigm | digital oscilloscopes | digital oscilloscopes | PAL | PAL | PROM | PROM | VHDL | VHDL | digital circuit design | digital circuit design | FPGA | FPGA | counters | counters | timing | timing | synchronization | synchronization | digital filters | digital filters | wireless communications | wireless communications | verilog | verilog

License

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6.630 Electromagnetics (MIT) 6.630 Electromagnetics (MIT)

Description

6.630 is an introductory subject on electromagnetics, emphasizing fundamental concepts and applications of Maxwell equations. Topics covered include: polarization, dipole antennas, wireless communications, forces and energy, phase matching, dielectric waveguides and optical fibers, transmission line theory and circuit concepts, antennas, and equivalent principle. Examples deal with electrodynamics, propagation, guidance, and radiation of electromagnetic waves. 6.630 is an introductory subject on electromagnetics, emphasizing fundamental concepts and applications of Maxwell equations. Topics covered include: polarization, dipole antennas, wireless communications, forces and energy, phase matching, dielectric waveguides and optical fibers, transmission line theory and circuit concepts, antennas, and equivalent principle. Examples deal with electrodynamics, propagation, guidance, and radiation of electromagnetic waves.

Subjects

electromagnetics | electromagnetics | Maxwell | Maxwell | polarization | polarization | dipole antennas | dipole antennas | wireless communications | wireless communications | forces | forces | energy | energy | phase matching | phase matching | dielectric waveguides | dielectric waveguides | optical fibers | optical fibers | transmission line theory | transmission line theory | circuit | circuit | antennas | antennas | equivalent principle | equivalent principle | electrodynamics | electrodynamics | propagation | propagation | guidance | guidance | radiation | radiation | electromagnetic waves | electromagnetic waves

License

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6.013 Electromagnetics and Applications (MIT) 6.013 Electromagnetics and Applications (MIT)

Description

This course explores electromagnetic phenomena in modern applications, including wireless communications, circuits, computer interconnects and peripherals, optical fiber links and components, microwave communications and radar, antennas, sensors, micro-electromechanical systems, motors, and power generation and transmission. Fundamentals covered include: quasistatic and dynamic solutions to Maxwell's equations; waves, radiation, and diffraction; coupling to media and structures; guided and unguided waves; resonance; and forces, power, and energy.Acknowledgments The instructors would like to thank Robert Haussman for transcribing into LaTeX the problem set and Quiz 2 solutions. This course explores electromagnetic phenomena in modern applications, including wireless communications, circuits, computer interconnects and peripherals, optical fiber links and components, microwave communications and radar, antennas, sensors, micro-electromechanical systems, motors, and power generation and transmission. Fundamentals covered include: quasistatic and dynamic solutions to Maxwell's equations; waves, radiation, and diffraction; coupling to media and structures; guided and unguided waves; resonance; and forces, power, and energy.Acknowledgments The instructors would like to thank Robert Haussman for transcribing into LaTeX the problem set and Quiz 2 solutions.

Subjects

ESD.013 | ESD.013 | electromagnetics | electromagnetics | applications | applications | wireless communications | wireless communications | circuits | circuits | computer interconnects | computer interconnects | peripherals | peripherals | optical fiber links | optical fiber links | microwave communications | microwave communications | radar | radar | antennas | antennas | sensors | sensors | micro-electromechanical systems | micro-electromechanical systems | power generation | power generation | power transmission | power transmission | quasistatic solutions | quasistatic solutions | dynamic solutions | dynamic solutions | Maxwell | Maxwell | Maxwell's equations | Maxwell's equations | waves | waves | radiation | radiation | diffraction | diffraction | guided waves | guided waves | unguided waves | unguided waves | resonance | resonance | forces | forces | power | power | energy | energy

License

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6.776 High Speed Communication Circuits (MIT) 6.776 High Speed Communication Circuits (MIT)

Description

6.776 covers circuit level design issues of high speed communication systems, with primary focus being placed on wireless and broadband data link applications. Specific circuit topics include transmission lines, high speed and low noise amplifiers, VCO's, mixers, power amps, high speed digital circuits, and frequency synthesizers. In addition to learning analysis skills for the above items, students will gain a significant amount of experience in simulating RF circuits in SPICE and also building RF circuits within a lab project. 6.776 covers circuit level design issues of high speed communication systems, with primary focus being placed on wireless and broadband data link applications. Specific circuit topics include transmission lines, high speed and low noise amplifiers, VCO's, mixers, power amps, high speed digital circuits, and frequency synthesizers. In addition to learning analysis skills for the above items, students will gain a significant amount of experience in simulating RF circuits in SPICE and also building RF circuits within a lab project.

Subjects

integrated circuit design | integrated circuit design | communication systems | communication systems | wireless | wireless | broadband | broadband | data links | data links | circuit blocks | circuit blocks | communication transceivers | communication transceivers | phase-locked loops | phase-locked loops | PLL | PLL | narrowband | narrowband | low-noise | low-noise | amplifiers | amplifiers | mixers | mixers | voltage-controlled oscillators | voltage-controlled oscillators | power amplifiers | power amplifiers | high speed frequency dividers | high speed frequency dividers | passive component design | passive component design | on-chip inductors | on-chip inductors | capacitors | capacitors | transmission line modeling | transmission line modeling | S-parameters | S-parameters | Smith Chart | Smith Chart

License

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6.976 High Speed Communication Circuits and Systems (MIT) 6.976 High Speed Communication Circuits and Systems (MIT)

Description

6.976 covers circuit and system level design issues of high speed communication systems, with primary focus being placed on wireless and broadband data link applications. Specific circuit topics include transmission lines, high speed and low noise amplifiers, VCO's, and high speed digital circuits. Specific system topics include frequency synthesizers, clock and data recovery circuits, and GMSK transceivers. In addition to learning analysis skills for the above items, students will gain a significant amount of experience in simulating circuits in SPICE and systems in CppSim (a custom C++ simulator). 6.976 covers circuit and system level design issues of high speed communication systems, with primary focus being placed on wireless and broadband data link applications. Specific circuit topics include transmission lines, high speed and low noise amplifiers, VCO's, and high speed digital circuits. Specific system topics include frequency synthesizers, clock and data recovery circuits, and GMSK transceivers. In addition to learning analysis skills for the above items, students will gain a significant amount of experience in simulating circuits in SPICE and systems in CppSim (a custom C++ simulator).

Subjects

high speed communication circuits | high speed communication circuits | high speed communication systems | high speed communication systems | communication | communication | circuit | circuit | wireless | wireless | broadband | broadband | data link | data link | transistor level design | transistor level design | high speed amplifiers | high speed amplifiers | mixers | mixers | VCO's | VCO's | registers | registers | gates | gates | phase locked loops | phase locked loops | transmission line effects | transmission line effects | circuit design | circuit design | narrowband | narrowband | behavioral level simulation techniques | behavioral level simulation techniques

License

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ESD.68J Communications and Information Policy (MIT) ESD.68J Communications and Information Policy (MIT)

Description

This course provides an introduction to the technology and policy context of public communications networks, through critical discussion of current issues in communications policy and their historical roots. The course focuses on underlying rationales and models for government involvement and the complex dynamics introduced by co-evolving technologies, industry structure, and public policy objectives. Cases drawn from cellular, fixed-line, and Internet applications include evolution of spectrum policy and current proposals for reform; the migration to broadband and implications for universal service policies; and property rights associated with digital content. The course lays a foundation for thesis research in this domain. This course provides an introduction to the technology and policy context of public communications networks, through critical discussion of current issues in communications policy and their historical roots. The course focuses on underlying rationales and models for government involvement and the complex dynamics introduced by co-evolving technologies, industry structure, and public policy objectives. Cases drawn from cellular, fixed-line, and Internet applications include evolution of spectrum policy and current proposals for reform; the migration to broadband and implications for universal service policies; and property rights associated with digital content. The course lays a foundation for thesis research in this domain.

Subjects

network | network | networking | networking | telecommunications | telecommunications | data network | data network | internet | internet | services | services | wireless | wireless | public policy | public policy | FCC | FCC | regulation | regulation | information service | information service | telecom | telecom | datacom | datacom | broadband | broadband | bandwidth | bandwidth | open access | open access | spectrum | spectrum | copyright | copyright | RIAA | RIAA | IP | IP | intellectual property | intellectual property | DRM | DRM | privacy | privacy | piracy | piracy | layered model | layered model | interconnection | interconnection | competition | competition | VoIP | VoIP | IPTV | IPTV | network neutrality | network neutrality | ISP | ISP | telco | telco | ESD.68 | ESD.68 | 6.978 | 6.978

License

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MAS.966 Digital Anthropology (MIT) MAS.966 Digital Anthropology (MIT)

Description

Digital Anthropology is a Spring 2003 applied social science and media arts seminar, surveying the blossoming arena of digital-artifact enabled experimental sociology/anthropology. We will emphasize on both (a) Technology Testbeds – systematically deploying research lab prototypes and corporate pre-production products in a sample human organizational population and carefully observing the social consequences, and (b) Sociometrics – using digital artifacts to better observe and measure the complex social reality of interesting human systems. Digital Anthropology is a Spring 2003 applied social science and media arts seminar, surveying the blossoming arena of digital-artifact enabled experimental sociology/anthropology. We will emphasize on both (a) Technology Testbeds – systematically deploying research lab prototypes and corporate pre-production products in a sample human organizational population and carefully observing the social consequences, and (b) Sociometrics – using digital artifacts to better observe and measure the complex social reality of interesting human systems.

Subjects

digital anthropology | digital anthropology | applied social science | applied social science | media arts | media arts | digital-artifact enabled experimental sociology/anthropology | digital-artifact enabled experimental sociology/anthropology | digital devices | digital devices | sensors | sensors | wireless | wireless | prototypes | prototypes | products | products | human organization | human organization | social dynamics | social dynamics | sociometrics | sociometrics | technology testbeds | technology testbeds | measuring human interaction | measuring human interaction | digital artifacts | digital artifacts | human systems | human systems | research lab prototypes | research lab prototypes | Predictive Microcosms | Predictive Microcosms | Fast Iteration | Fast Iteration | Experimental Sociology | Experimental Sociology | Comparative Market Research | Comparative Market Research | Cross-Campus Connections | Cross-Campus Connections

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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15.020 Competition in Telecommunications (MIT)

Description

Competition in Telecommunications provides an introduction to the economics, business strategies, and technology of telecommunications markets. This includes markets for wireless communications, local and long-distance services, and customer equipment. The convergence of computers, cable TV and telecommunications and the competitive emergence of the Internet are covered in depth. A number of speakers from leading companies in the industry will give course lectures.

Subjects

telephone | Internet | communications | economics | business strategy | technologies | wireless | convergence | cable television | governmental regulations | public policy | evolution of technology | computer hardware and software | VoIP | data and voice traffic | network integration | deregulation | cell phones | WiFi | Internet commerce | spectrum auctions | telecommunications markets | competition | wireless communications | long-distance services | computers | satellite TV | telecommunications industry | regulation | technology | market structures | data traffic | voice traffic

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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