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I’m curious as to why you would enquire on two separate courses from two universities (edit - you probably did Mechatronics). Electronics 1 & 2. The focus of this module will be on the antenna array as a realization method to enable multi-antenna communications. Some applications to pattern recognition, function mapping, sensor fusion, obstacle avoidance and learning in robotic systems are also presented. This module teaches basic theories and applications of electromagnetic waves. This module has direct industrial relevance and would be useful not only to electrical but also to mechanical engineering students working in the areas of automation and mechatronics. CG4002 Computer Engineering Capstone Project: 8. The sensor and instrumentation part includes topics such as signal processing and conversion, transducers and actuators, instrumentation amplifiers, non-linear amplifiers, issues pertaining to grounds, shields and power supplies. The module exposes students to a variety of modelling and techniques involving optimization problem formulations in communications signal processing and networks. All FoE & CEG students are not allowed to read this module. Hands-on sessions will be conducted and a mechatronic design group project will be carried out. Engineering Management, M.S. This course introduces students to the fundamental principles and concepts of computer communication networks. Currently there are three major types of information storage technologies, i.e., magnetic data storage, optical disks, and solid-state memories. 21 Lower Kent Ridge Road Singapore 119077 The functionalities of the electronic system are determined by the students themselves. The objective is to discuss the social impact of information technology on in public and private sectors. Electrical Engineering Practice 1 & 2. Apart from intrinsic rewards such as the pleasure of problem solving, students are able to acquire skills for independent and lifelong learning. AC-DC converters, DC-DC converters and DC-AC converters: basic analysis and performance evaluation. This course covers various basic topics in wireless communications for voice, data, and multimedia. Students will have to ensure that they have read the prerequisite module(s) of the depth modules. Topics include: general concepts and classification of random variables and stochastic processes; transformation of random variables; effects of linear time-invariant filtering on the autocorrelation function and power spectrum of a stochastic process; Gaussian, chi and chi-square statistics; random binary signals, random walk process, Wiener-Lévy process; Poisson and related processes; random telegraph signals. It will also This course will provide students with a good foundation in computer vision and image processing, which is important for those intending to proceed to biomedical engineering, intelligent systems and multimedia signal processing. This module is strongly recommended for students heading towards Chemical & Bioprocess Engineering. Source coding and waveform quantization techniques. Error performance analysis of digital modulation systems. It is an integral part of all electronic equipment from household appliances through information technology to transportation systems. They are essential for maintaining our environment, enabling our transportation and communications systems; and are critical elements in our aerospace and industrial systems. We also study the unique characteristics of the underwater channel and their effect on medium-access control (MAC) and other data-link layer protocol design. EE5514, EE5515, EE5434 EE5516, EE6503, EE6504. Important Information to Note Upon Cessation of Studies at NUS; Modules Administration; Non-Discrimination Statement; ... (Electrical Engineering) Home / NUS Bulletin AY2020/21 / Faculty of Engineering / ... National University of Singapore. It also provides students with an integrated perspective about the two modules. Mathematical background materials, such as matrix properties and operations, dynamic system models and solutions and random variables will first be discussed, followed by major topics including notions of optimality, selection of cost functions, optimal state estimation, basic optimal control and model predictive control. This module covers systematical analysis and design of advanced mixed-signal integrated circuits in CMOS technology and updates students with the current state-of-the-art designs. It is also a first course in nonlinear systems and control. This module introduces students to the important area of signal processing and communications, which are two major areas in electrical engineering and in our daily lives. Background knowledge in Linear Algebra & feedback control are required. Issues such as scalability, architectural issues, parallelism, performance metrics, and programming, are considered. The NUS Engineering Internship Programmes are for students who are admitted into the B.Eng. Students will be brought through a design cycle in a realistic project. The topics covered are: Modeling of power systems: bus admittance and bus impedance matrices, network building algorithms; Load flow studies: problem formulation, computer solution techniques, applications; Fault analysis: symmetrical components, sequence impedance networks, symmetrical and unsymmetrical faults; Protection: components, relay coordination; Protection of distribution systems; Differential, and earth fault protection systems. It incorporates introductory concepts, MOS capacitor, long channel MOSFETs, short channel MOSFETs, MOS IC and technology, and MOS IC applications. The performance of these components is critical to system performance. Basic knowledge of mathematics and physics at the GCE O-level. This part is followed by practical digital modulation techniques and their performance under wireless channel impairments, including diversity techniques to compensate for flat-fading, multicarrier modulation to combat frequency-selective fading, and an introduction to multi-antenna communications. ... Students must successfully complete all modules unless granted a compensation pass, or module exemptions. Applications of wireless systems. Within the above requirement though, candidate may choose to take up at most 2 modules offered from other departments (graduate modules without EE prefix code or undergraduate level 4 modules) and may have it count towards the M.Sc (Electrical Engineering… Students are required to implement an embedded system by going though the complete design flow with state-of-the-art Electronic Design Automation (EDA) tools. Basic probability at the level of EE2012 and basic networking concepts at the level of EE3204 and EE4210. The course introduces students to the conduct of rigorous research in interactive system design. Topics covered include nano-lithography, nano-layering, nano-characterization, and nano-devices. The course introduces various research methods on interactive system design. Then students will learn about the reflection coefficient and plot it in the Smith Chart. Elective Modules for Specialisation (at least 3 modules) EE4302 Advanced Control Systems Topics covered include feedback principles, time and frequency analysis of control systems, and simple controller design. The course also includes an examination of the security aspects of each layer. The aim of this module is to provide a comprehensive introduction of various advanced topics in computer vision. Electrical and Computer Engineering. Deadlock management and process communications are treated at an advanced level. Electrical stress failures: electromigration and ESD/EOS. The module will also cover supply-grid interconnection, and reliability and power quality issues. All modules are 4MCs, except when otherwise stated. At NUS Electrical Engineering, students take on introductory mathematics and programming courses in preparation for the subsequent higher-level courses. The aim is to develop an in-depth understanding of the fundamental concepts in the analysis and design of multivariable feedback control systems. The course builds upon the C language programming skills the students have learnt in the previous semester and teaches them how to utilize programming to build simple digital systems. R0-parameters and Channel capacity. MMIC Design: lump element design, foundry rules, modeling of active and passive networks, design techniques - Layout and DRC Checks. This module builds on the concepts learnt in EE2011 Engineering Electromagnetism and EE2023 Signals and Systems. Radio and microwave systems need to be immune from external EM interference and need to ensure that they do not cause interference of their own. This module provides students with system theory, analysis tools and design methods in discrete-time domain. In this course, we aim to provide the student with knowledge of the basic theory of underwater acoustics that is necessary in the understanding and development of underwater communication systems. the factors affecting the market penetration of such resources. The module is designed to expose the students with a wide range of functional devices and to equip the students with capability of analyzing new emerging devices. Electrical properties of semiconductors, drift, diffusion, generation, recombination, trapping and tunnelling. This module provides an overview of the general failure mechanisms in integrated circuits and three MOS technology specific reliability mechanisms (i.e., CMOS latchup, gate oxide reliability and hot carrier reliability). Pertinent issues such as energy management and distributed information processing will be covered. Students will be required to complete a minimum of 120 MCs of modules as listed below.) of tutorial hours per week The emphasis of this module is on understanding the fundamentals of digital design across different levels of abstraction using hardware description languages. Techniques for discrete-time control realisation will also be discussed. Advanced Electromagnetic Theory and Applications. All Rights Reserved. EE3204 or EE3207 (Applicable to undergraduate students only). The focus is on in-depth treatments and wider coverage of advanced topics on (i) kinematics, (ii) trajectory planning, (iii) dynamics, and (iv) control system design. To this end, it covers major system impairments of optical communication systems and how optical communication systems have evolved to cope with them and increase the capacity in a cost-effective manner. Issues related to the performance of each layer are explored in detail. Switching circuits design and protection circuits. This is a first year course which introduces students to some electrical and magnetic components which are the building blocks for electrical engineering. Topics covered include Lyapunov-based direct adaptive control scheme, self-tuning regulator, model reference adaptive control, variable structure control and least squares estimation. This module aims to provide an introductory coverage on the concepts and principles that form the basis for understanding an interdisciplinary field with an emphasis on electrical engineering. This is a fundamental course in signals and systems. Students will also learn about the history of the personal computer, as well as its current and future trends. Students should take up this module only if the course helps them in their R&D efforts. Electronic devices are the building blocks of electronic systems, and an understanding of device technology is essential for the electrical engineer. EE4102 or EE5305 (Applicable to undergraduate students only). 21 Lower Kent Ridge Road Singapore 119077 Microwave frequency conversion, mixer analysis, single-ended and balanced mixers, diode and transistor mixers, image rejection, mixer noise. Energy sustainability is important both due to the limited global petroleum reserves and due to the global warming effects of greenhouse gases released by the use of fossil fuels. The main focus is on implementation in Si/SiGe CMOS and BiCMOS integrated circuit (IC) technologies. The first part of the module provides the concepts and operational details of cellular networks, wireless local area networks (WLAN), multi-hop and ad hoc wireless networks, and covers aspects such as medium access control, routing and transport protocols. The course aims to introduce the basic concepts and design methods of adaptive control. This module emphasizes on the practical aspects related to modules EE2021 Device and Circuits and EE2022 Electrical Energy Systems. This module provides a broad view of the state-of-the-art in digital media technologies. Exciton, isoelectronic traps. Anyway, it all depends on your objectives. Upon completion of this module, students will be able to analyse a given pattern recognition problem, and determine which standard technique is applicable, or be able to modify existing algorithms to engineer new algorithms to solve the problem. The students are expected to learn useful skills and build up interdisciplinary background for further research in biomedical circuits and system. Communication via fading channels – channel models, receiver design and error performance analysis. Modules. This course explores how principles from theories of evolution can be used to construct intelligent systems. Micro/Nano Electromechanical Systems (Advanced). Intended for research students, the module includes a project involving the design of MEMS/NEMS devices through detailed modelling and simulation. The course content offers essential mathematical as well as simulation tools to conduct reliability analysis of interconnected power systems and estimate various probabilistic measures. The following topics are taught: elements of a vision system, image acquisition, 2-D discrete Fourier transform, image enhancement techniques, theoretical basis and techniques for image compression, segmentation methods including edge detection, feature extraction including texture measurement, and object recognition. The module provides an introductory view of the microelectromechanical systems (MEMS) in various application areas, and also the knowledge on micromachining technology for making the physical sensors and actuators. For timetable, please refer to https://www.ece.nus.edu.sg/academic/timetables/ The topics covered include basic semiconductor physics, drift and diffusion of carriers, pn diode, diode circuits, Bipolar Junction Transistor (BJT), and Metal Oxide Semiconductor (MOSFET), design of single stage amplifiers using BJTs and MOSFETs, CMOS inverter, multistage amplifiers, current source and sink. This course covers the techniques required for cellular mobile communication system design and performance analysis. Systems Architecting and Engineering, M.S. 1 February 2019: - CG3002 (6MCs) will be last offered in sem 1, AY19/20. Signals going through a system is an inevitable process. Co-req: EE3501C [ Note for AY14/15 intake & after – Pre: EE2025, Co-req: EE3505C ]. It covers the design of modulation and demodulation schemes for digital communications over an additive white Gaussian noise channel. While having theoretical rigor, the module will also emphasize the realizability and implementation of algorithms based on prediction, estimation, spectral analysis and optimum processing on existing digital processing systems. C: no. The latter part of the module will cover the basic topics of solid state theory relevant for nanoelectronics, such as bandstructure, electronic transport in solids, and phonons. Upon completion of this course, students will be able to model, analyze, and predict the performance of three-phase systems, transformers, and transmission and distribution networks.

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