Noise in Devices and CircuitsExplores different types of noise in devices and circuits, including interference noise, inherent noise, and random signals.
Noise and MeasurementsExplores electronic, thermomechanical, and amplifier noise, calibration of amplitude, frequency tracking, and system limits.
Noise in ElectronicsIntroduces the fundamentals of noise in electronics, covering origins, signal types, power characteristics, and noise sources.
Design ExampleCovers the design of a practical system to send data over a telephone channel.
Electrical MetrologyExplores electrical metrology, covering random variables, noise sources, and their impact on electronic devices.
Lecture: ShannonCovers the basics of information theory, focusing on Shannon's setting and channel transmission.
Electrical MetrologyExplores different types of noise in electrical systems and their impact on electronic devices.
OFDM Channel EstimationExplores OFDM channel estimation for wireless receivers, emphasizing the importance of accurate estimation in wireless communication systems.
Achievable Rate & CapacityExplores achievable rate, channel capacity, spectral efficiency, and fading channels in wireless communication systems.
Factors impacting noiseExplores the factors influencing the annoyance level of noise, such as loudness, spectrum, and temporal features.
Strategies to Combat Noise SourcesCovers strategies to combat noise sources in electronics measurements and explores techniques to mitigate noise and improve measurement accuracy.
Noise in Electronic DevicesExplores thermal noise in MOS Transistors, input noise of bipolar transistors, and noise in amplifier stages, mirrors, differential pairs, and opamps.
Noise and beam steeringExplores laser fundamentals, noise sources, and beam steering technologies using optical fibers and ultrafast lasers.
