The proposed algorithm is evaluated through confusion matrix and false recognition probability.
Continuation of Electronics II with major emphasis on applications of integrated circuits and design of analog, control, communication and digital electronic systems. Engineering problem solving process, overview of a generalized computing system, software development, real-life engineering applications, computational implications.
This course will give the students an introduction to MEMS-based microsystems with an emphasis on design and analysis of interdisciplinary systems at microscale. This course will give students an in-depth knowledge and experience of emerging and developed technologies in the areas of micro-electro-mechanical-systems. EEL 2880 Applied Software Techniques in Engineering (3).
The study of hardware functions of a basic computer. Introduction to aspects of the engineering profession.
Topics include logic elements, arithmetic logic units, control units, memory devices, organization and I/O devices (for non-EE majors only).
Modulation type is one of the most important characteristics used in signal waveform identification.
In this paper, an algorithm for automatic digital modulation recognition is proposed.
Representation of deterministic and stochastic signals. Analog and digital modulation systems, Receiver structures, SNR and error probability calculations, Frequency and time division multiplexing. Elements of information theory, Multiple access techniques and ISDN. M-ary modulation systems, error probability calculations. Noise and its characterization, Noise figure calculations, Noise in semiconductors, P-N junction, Metal semiconductor junctions, Tunnelling: Varactors and their application as parametric amplifiers and multipliers. Tropospheric propagation; fading, diffraction and scattering; Ionospheric Propagation-refractive index, critical frequencies, effects of magnetic field.
Basics of semiconductor physics, p-n junction diodes, Metal-semiconductor contacts, BJTs, MOS capacitors, MOSFETs, optoelectronic devices, Advanced semiconductor devices: MESFETs, HBTs, HEMTs, MODFETs Communication problem and system models. ISI & channel equalization, partial response signalling. Semiconductor materials, Ultraclean technology, Single crystal growth, Thermal oxidation of silicon, Solid state diffusion, Ion implantation, Vacuum technology, Physical and chemical vapor deposition techniques, Wet and dry etching, Lithography techniques, VLSI/ULSI process integration, Fault diagnosis and characterization techniques. Ground wave propagation, terrain and earth curvature effects.
Introductory course dealing with basic electronic devices such as diodes, BJTs, FETs, Op-Amps, and their circuit applications.