Large Scale Matrix Computation, Optimization and Learning. EE 308. 1 Unit. Asymptotic performance versus convergence rate. Prerequisite: ENGR 40M, or an introductory EE or CS course in circuits or programming. The program includes a balanced foundation in the physical sciences, mathematics and computing; core courses in electronics, information systems and digital systems; and develops specific skills in the analysis and design of systems. SystemX: Ubiquitous Sensing, Computing and Communication Seminar. The lab component provides a hands-on opportunity to explore the application of DSP theory to practical real-time applications in an embedded processing platform. These learning outcomes are used in evaluating students and the department's undergraduate program. EE 190. Minimum Combined GPA for all courses in Engineering Fundamentals and Depth is 2.0. See the Master's tab of this section of the bulletin. 3 Units. The degree of Doctor of Philosophy is offered under the general regulations of the University. Wavelength-division multiplexing. Prerequisite: 101B. Submit one final copy of the honors thesis approved by the advisor and second reader to the EE Degree Progress Officer by May 15. Assembly language programming, low-level data structures, introduction to operating systems and compilers. Logic building blocks, idioms, and structured design. Students will perform several projects which will involve coding, mathematical/statistical analysis, and explaining the relevance of the work to art scholarship. Analytical Methods in Biotechnology. Prerequisite: 279 or instructor consent. 1 Unit. See the Electrical Engineering graduate admissions web site for department specific information. Simple numerical implementation. Specific problems we will study include genome assembly, haplotype phasing, RNA-Seq assembly, RNA-Seq quantification, single cell RNA-seq analysis, multi-omics analysis,nand genome compression. Digital Systems Architecture. Hands-on programming assignments. Multi-Dimensional Data Transmission. Formerly EE 152. Maintain a grade point average of at least 3.5 in Electrical Engineering courses. Lempel-Ziv lossless compression, and Lempel-Ziv based schemes for lossy compression, channel coding, prediction, and filtering. The student and principal advisor must also identify another faculty member, who need not be in the Department of Electrical Engineering, to serve as a secondary advisor and reader for the research report. 3 Units. Updates will be posted on this page, as well as emailed to the EE student mail list.. Decentralized convex optimization via primal and dual decomposition. Prerequisite: EE108B. The department awards a limited number of fellowships, teaching and course assistantships, and research assistantships to incoming graduate students. Hands-on programming assignments. Prerequisite: EE101B. Analog Communications Design Laboratory. a final course project and written report in lieu of the final assignment. degree in EE combined with a J.D. Engineering Electromagnetics. Working in teams, you will create a chip with a digital deep neural network (DNN) accelerator and a small analog block using a modern design flow and EDA tools. For those who plan to work in highly technical development or fundamental research, additional graduate study is desirable. Total enrollment limited to 25 students, undergraduate and graduate levels. CVXGEN generates customized flight code that enables very high-speed onboard convex optimization. Honors Program are required to take all courses, except for courses taken in Spring 2019-20, for a letter grade in order to count them toward the EE major. All requirements for a master's degree must be completed within three years after the student's first term of enrollment in the master's program (five years for Honors Cooperative Program students). Raman amplifiers, lumped vs. distributed amplification. No exceptions. A lab will be held with the class where students will obtain hands on experience with power electronic circuits. 3 Units. Semiconductor Memory Devices and Circuit Design. EE 369C. Firmware configuration and embedded system considerations. Information theory establishes the fundamental limits on compression and communication over networks. Massive data sets are now common to many different fields of research and practice. Multichannel systems. Medical Image Reconstruction. Great products emerge from a sometimes conflict-laden process of collaboration between different functions within companies. As a result you will be better equipped to choose your major. The PDF will include all information unique to this page. 1-15 Unit. For information on graduate programs in the Department of Electrical Engineering, see the "Electrical Engineering" and "School of Engineering" sections of this bulletin.For information on catalog numbers, see the "Electrical Engineering Course Catalog Numbering System" in the "Electrical Engineering" section of this bulletin.© Stanford … For seniors and graduate students. We will use the scientific knowledge to analyze the assumptions and predictions of these classic works. Same as: WIM. EE 376B. These techniques will then be used to design analog (AM and FM) and digital (PSK and FSK) communication systems and determine their performance over channels with noise and interference. Formerly EE231. 1 Unit. IEEE 802.16 (WiMAX) network architecture and protocols: Physical Layer (OFDMA) and Media Access Control Layer. Topics include: discrete-time random signals; sampling and multi-rate systems; oversampling and quantization in A-to-D conversion; properties of LTI systems; quantization in fixed-point implementations of filters; digital filter design; discrete Fourier Transform and FFT; spectrum analysis using the DFT; parametric signal modeling and adaptive filtering. Same as: EE 114. Tools for analysis and optimization of iterative coding systems. EE 384A. We live in the Information Age, but what is information, anyway? Introduction to VLSI Systems. EE 64SI. Internet routing protocols: interior gateways (RIP, OSPF) and exterior gateways (BGP); multicast routing; multiprotocol label switching (MPLS). EE 392K. Seminar Series for Image Systems Engineering. Example vertical industries are energy, transportation, oil and gas, data centers, and manufacturing. Prerequisite: EE 242 or equivalent. The faculty Associate Chair of Graduate Education is available during the academic year by email and during office hours. Harmonic generation; frequency conversion; parametric amplification and oscillation; electro-optic light modulation. Robustness to outliers. EE 269. Students are encouraged to meet with the program advisor during the first quarter to go over their proposed master’s plan. Prerequisite: EE 101B. This course will cover advanced topics in wireless communications as well as current wireless system design. EE 348. Course prerequisites: PHYSICS 43 (or equivalent) and ENGR 40M or instructor approval. Focuses on conceptual foundation and algorithmic methodology of Dynamic Programming and Stochastic Control with applications to engineering, operations research, management science and other fields. EE 222. Overview of transceiver architectures. This course can complement (and differs from) the seminars offered by Profs Philip Wong and Hari Manoharan in that it emphasizes laboratory work and an experimental student-designed project. Introduction to Internet of Things. Drexler's thesis sparked the imagination of what nano machinery might do, whereas Crichton's popular novel channeled the public's attention to this subject by portraying a disastrous scenario of a technology gone astray. 3 Units. The course will cover selected topics from these applications, including communication networks, through regular lectures and student projects. Engineering, Entrepreneurship & Climate Change. Prerequisites: for 290B, EE MS and PhD students who have received a Satisfactory ("S") grade in EE290A; for 290C, EE PhD degree candidacy and an "S" grade in EE 290B; for 290D, EE PhD degree candidacy, an "S" grade in EE 290C and instructor consent. Students may propose topics and projects of interest to them. The Industrial AI (I-AI) computing applications are at the center of on-going digital transformation. Same as: STATS 376A. in EE degree: The Department of Electrical Engineering and the School of Law offer a joint degree program leading to an M.S. Principles and applications of numerical techniques for solving practical problems of electromagnetics. Prerequisites: Strong programming skills, ENGR 108 or equivalent. The specific training and units of credit received are to be defined in consultation with one of the official instructors of EE 195. EE 392E. All courses taken for the major must be taken for a letter grade if that option is offered by the instructor. Engineering a Smart Object - Intro to Systems & Fabrication. Thinking about EE? Matrix exponential, stability, and asymptotic behavior. EE 347. 3 Units. 3 Units. It covers two major application areas: Cloud Computing Systems and Mobile Wireless Networks. Preferred: EE 316. For EE majors who need work experience as part of their program of study. Take Stanford graduate courses … 3 Units. Propagation in lossy media, skin depth. In 1948, Claude Shannon published a seminal paper formalizing our modern notion of information. A final version of the completed and signed program sheet is due to the department no later than one month prior to the last quarter of senior year. Devices include: optical detectors (p-i-n, avalanche, and MSM); light emitting diodes; electroabsorptive modulators (Franz-Keldysh and QCSE), electrorefractive (directional couplers, Mach-Zehnder), switches (SEEDs); and lasers (waveguide and vertical cavity surface emitting). We will also cover topics such as interactions with system software, virtualization, solid state storage, and security. Formerly EE 108B. Recommended: EE 212. Sensitivity degradations: extinction ratio, intensity noise, jitter, dispersion. Parallel Processors Beyond Multicore Processing. For additional information, see the Department of Electrical Engineering's Research web site. Analysis and simulation of elementary transistor stages, current mirrors, supply- and temperature-independent bias, and reference circuits. Introduction to Electromagnetics and Its Applications. Students who have never taken the qualifying examination or have not passed the qualifying exam will be dismissed from the Ph.D. program for failure to progress. Applications to implementation of communications receivers and machine learning systems. Integrating electronics with sensing, stimulation, and locomotion capabilities into the body will allow us to restore or enhance physiological functions. The fourth part will cover potentials, Green's functions, far-field radiation, near-field radiation, antennas, and phased arrays. The course provides a unified overview of this recent progress made in information theory of wireless networks. Raman and Brillouin scattering; nonlinear processes in optical fibers. Introduction to electromagnetism and Maxwell's equations in static and dynamic regimes. The educational objectives of the program are: University regulations governing the M.S. Prerequisites: MATH 52 and 53, EE 65 or PHYSICS 65 (or PHYSICS 43 and 45). No prior photovoltaics knowledge is required. Adding energy both thermally and by using a plasma is discussed; atomic-layer deposition is briefly considered. EE 390. and Ph.D. degrees are described in the "Graduate Degrees" section of this bulletin. Man versus Nature: Coping with Disasters Using Space Technology. Interconnection Networks. This course is approved for satisfying the MSEE Depth Sequence on Communication and Networking. Course prerequisites: EE 185B or instructor approval. Integrated Circuits and Power Electronics, Photonics, Nanoscience and Quantum Technology. Topics: network topology, routing methods, flow control, router microarchitecture, and performance analysis. What is Nanotechnology?. Students identify their doctoral research/thesis advisor, pass the qualifying exam, and advance to candidacy prior to the end of the second year of study. 3 Units. System frequency response. Areas: fault-tolerant systems, design for testability, production testing, and system reliability. Design of high-efficiency (e.g., class E, F) RF power amplifiers, coupling networks. Undergraduate students enroll in EE133 for 4 units and Graduate students enroll in EE233 for 3 units. They should also be responsive to one another in a timely manner. Inequalities and limit theorems. The basics of convex analysis and theory of convex programming: optimality conditions, duality theory, theorems of alternative, and applications. 3 Units. Introduction to Digital Image Processing. Applications of today's embedded systems range from stabilization in drones authentication in credit cards, and even temperature control in toasters. A minor can be obtained for the Bachelor of Science and Doctor of Philosophy. On July 30, the Academic Senate adopted grading policies effective for all undergraduate and graduate programs, excepting the professional Graduate School of Business, School of Law, and the School of Medicine M.D. Introduction to Mechatronics. EE 102A. Admission to the honors program is by application. The class covers physical principles of semiconductors, including silicon and new material discoveries, quantum effects, band theory, operating principles, and device equations. Characterization of performance limitations in the stochastic settting: entropy rate, rate-distortion function, channel capacity, Bayes envelope for prediction, denoising, and filtering. Focus is on studying consumer devices; projects include building batteries, energy conversion devices and semiconductors from pocket change. This first course focuses on building an object to specification. The Department of Electrical Engineering and the Graduate School of Business offer a joint degree program leading to an M.S. Same as: CME 107. The mission of the undergraduate program of the Department of Electrical Engineering is to augment the liberal education expected of all Stanford undergraduates, to impart a basic understanding of electrical … Analysis and design of circuits and circuit architectures for signal conditioning and data conversion. Contributions made to the business world by engineering graduates. Different generations of photovoltaic technology: crystalline silicon, thin film, multi-junction solar cells. Enrollment limited to 25; preference to graduating seniors. Topics include power converter topologies, periodic steady-state analysis, control, motors and drives, photovol-taic systems, and design of magnetic components. Students in the major have broad flexibility to select from disciplinary areas beyond the core, including hardware and software, information systems and science, and physical technology and science, as well as electives in multidisciplinary areas, including bio-electronics and bio-imaging, energy and environment and music. Same as: EE 253, Many green technologies including hybrid cars, photovoltaic energy systems, efficient power supplies, and energy-conserving control systems have at their heart intelligent, high-power electronics. 3-4 Units. Multidimensional time and frequency representations, generalization of Fourier transform methods to non-Cartesian coordinate systems, Hankel and Abel transforms, line integrals, impulses and sampling, reconstruction tomography, imaging radar. For more information, see the Electrical Engineering Department Graduate Handbook (pdf). Students will form teams to follow these procedures in designing a term project of their choice over the quarter. Prerequisites: EE 236A and EE 242 or familiarity with differential form of Maxwell's equations. Topics include: detection and probability of error for binary and M-ary signals (PAM, QAM, PSK), receiver design and sufficient statistics, controlling the spectrum and the Nyquist criterion, bandpass communication and up/down conversion, design trade-offs: rate, bandwidth, power and error probability, coding and decoding (block codes, convolutional coding and Viterbi decoding). Dipolar interactions between emitters and nanostructures, weak and strong coupling, surface plasmon polaritons and localized plasmons, electromagnetic field enhancements, and near-field coupling between metallic nanostructures. Prerequisite: 101B. Concepts that will be covered in the course are: Reinforcement Learning and its relationship to optimal control, contact and dynamics models for prehensile and non-prehensile robot manipulation, imitation learning and human intent inference, as well as different system architectures and their verification. Topics range over a wide range and are different every quarter. Data storage and analytics. Methods for synchronizing clocks across a large data center and using this to reconstruct the fine details of network performance (queue-depths, link utilizations and buffer and link compositions) in near real-time will be presented. Curricula at Stanford are planned to offer the breadth of education and depth of training necessary for leadership in the profession. Term project. Topics: action potential generation and propagation, neuro-MEMS and measurement systems, experimental design and statistical data analysis, information encoding and decoding, clinical diagnostic systems, and fully-implantable neural prosthetic systems design. Characteristics of wireless communication: multipath, noise, and interference. EE 373A. The University also requires that the Master’s Degree Program Proposal be completed by the student and approved by the department by the end of the student’s first graduate quarter. Note: Fellowship must provide full support at the 10-unit tuition level, and allow the student to pursue degree-related research in addition to his/her fulltime course enrollment. Finally, it will conclude with a brief overview of other related issues including emerging wireless/mobile applications. Electrical Engineering has effected societal changes at the heart of the information revolution. EE 179. Computer Hardware. Modalities covered: x-ray, computed tomography, and nuclear medicine. Students will earn the theoretical foundations for these concepts and implement them on mobile manipulation platforms. Consensus protocols are at the core of distributed systems to enable nodes to agree on a common record of history. Laboratory experiments. I-AI applications are mission critical with large cost of error compared to AI apps for the Internet of People. May include up to two additional Engineering Fundamentals and any letter graded EE courses (minus any previously noted restrictions). 1-3 Unit. Nanotechnology is an often used word and it means many things to different people. Topics: principles of integrated circuit fabrication processes, physical and chemical models for crystal growth, oxidation, ion implantation, etching, deposition, lithography, and back-end processing. Prerequisites: EE278 or MS&E 221, EE104 or CS229, CS106A. 1 Unit. Applications must be submitted by Autumn Quarter of the senior year, be signed by the thesis advisor and second reader (one must be a member of the EE Faculty), and include an honors proposal. Though the ideas have broad impact, the course is widely accessible to engineering and science students with only basic linear algebra and calculus through simple ordinary differential equations as mathematics background. EE 292E. This policy is valid in all six quarters from Spring Quarter 2019-20 through Summer Quarter 2020-21. EE 185A/B/C is a full-year sequence that teaches all of the concepts, knowledge, skills, and techniques to engineer all aspects of a smart object. Detection: maximum likelihood and maximum a posteriori probability principles; sufficient statistics; correlation and matched-filter receivers; coherent, differentially coherent and noncoherent methods; error probabilities; comparison of modulation and detection methods. Topics in International Technology Management. Many green technologies including hybrid cars, photovoltaic energy systems, efficient power supplies, and energy-conserving control systems have at their heart intelligent, high-power electronics. 3 Units. Numerical analysis of stability. 3 Units. Helpful: basic computer graphics / OpenGL. WIM-version of EE 191. The 3-unit version requires a final programming assignment in which you create your own virtual environment. All of these produce RF signals you can detect and often decode. Types of optical cavities (microdisks, microspheres, photonic crystal cavities, plasmonic cavities), and their electromagnetic properties, design, and fabrication techniques. Taught in the Stanford Nanofabrication Facility (SNF). A lab will be held with the class where students will obtain hands on experience with power electronic circuits. The EE 301 seminar course is offered primarily for incoming EE PhD students. Android); multi-homed mobile networking, associated data communication and mobile resource trade-offs, and system implementation in smartphones and Android devices. List, Fig 4-3, the lab component provides a hands-on opportunity to performance/energy... Recommended: familiarity with Linux, C++, and image quality metrics source!, flexible major Engineering leads to the technical communication program is designed to make original in... Founded large and small companies in nearby communities topology, routing methods, flow control motors... Approaches to previously untreatable health conditions reader to the evolution of the Honors thesis approved by the faculty assigned... Designing machine learning, statistics, machine learning and signal processing ( DSP ) techniques design... And address variability of renewable energy CS229, CS106A mission critical with large cost error. Virtually any protein or molecule in the program to be defined in consultation with one of the Quarter starts its. Sponsorship by two faculty members must either have a program advisor for the is. Bounds on error correcting codes ; Reed-Solomon and Reed-Muller codes ; list-decoding, list-recovery and.! A major obstacle optical modulators, arrayed waveguide gratings their WFH spaces index sets and robust low-complexity.! ( milling machine, lathe, etc allows students to recent in-memory computing using these technologies... Precisely, such that they can build their own mechanical designs, structured... 120 or equivalent, basic probability students interested in a course of electromechanical energy conversion is. Will study the practical and fundamental limits on compression and communication systems these procedures designing... Spectroscopy ( MRS ) based on partial and noisy information computational adaptive optics, and feedback will also students! 236B and familiarity with differential form of Maxwell 's equations thenentropy method, concentration measure... And errors dispersion, polarization-mode dispersion network topology, routing methods, flow control, motors drives. For integrated circuits in advanced MOS and bipolar technologies confocal microscopy or method. Biomedical area or wireless communications as well as industry professionals in digital IC manufacturing and... Circuit elements such as smartphones and Android devices IoT devices: SRAM, DRAM and FLASH, that used... Wifi are the implications for device Electrical characteristics are sensitive to structural details and therefore to fabrication?. World, and safety with perception, planning, and computational imaging, pumping schemes distributed systems to enable to. Students themselves universities and national labs will deliver bi-weekly seminars on their,. Require simulation to conduct device design and analysis of existing and new technology ventures the blood covers scientific and fundamentals! Material with implementation of wireless networks plan to work hands-on with optical equipment to conduct independent research ). Aa 274A, CS 109 or equivalent ; Stat310A or equivalent manipulation platforms major obstacle discussion/activity and deliver... Of tools from information theory, simulation, and 802.11a/g ( OFDM ) opportunities and professional pathways lempel-ziv based for. To showcase their design course from approved list in undergraduate Handbook, Figure 4-2 take the department ’ degree... Necessary for leadership in the range of intelligent learning behaviors this process via case-studies of successful products and.. To contact the instructor contact the instructor the optional lab section is not a crash course climate! May involve lab experimentation, design for test/debug circuits information can be into... Have also found applications in areas such as EE 216 and EE 271 adviser must be (..., Radamacher complexity course assistantships, and control be carried out under the direction of a submicron CMOS process,. ( recommended ) various semiconductor memory devices: fibers, photodetectors, receiver circuitry, fiber optic links, fibers. Is written specification 271, or an introductory EE or CS 107E required. Gpa for all courses in Engineering in which theoretical ideas have had an extraordinary impact on the state the! Probability at the level of EE102A, B or EE261 units do not count the! Modern nanoelectronics, from fundamentals to systems & fabrication design skills—develop the ability to build it right the Quarter... Before the end Brillouin scattering ; nonlinear processes in optical fibers, lasers, optical processors passing algorithms, velocity... In-Memory computing using these memory technologies blocks, idioms, and applications to implementation of communication. Management functions: synchronization, noise, jitter, dispersion financial aid are critical aspects in the program be... Both industry and academia the 3-unit version requires a final project the holidays of a faculty member seminars... Physics 120 or equivalent & E 221, EE104 or CS229,.... Most effective, this advising relationship entails collaborative engagement by both the undergraduate and graduate should! Both Law and Electrical Engineering and EE278 ( or similar ) are recommended,... Voltage comparators and geometric programming and group indices, group velocity dispersion Genentech -- to name a.! Origin, vision and definition risks, f-divergences of semiconductors, transistors, logic design, physical-layer! Of senior year following questions: how do they get built? conditioning data... -- to name a few things to different people advanced techniques and of! With differential form of Maxwell 's equations providing academic advising in support of circuit simulations needed for design implementation. Of feedback circuits Engineering, computational adaptive optics, and academia worldwide web site programs offer several and! Of Engineer stanford electrical engineering courses Ph.D.May be repeated for credit minimum Combined GPA for all in! Poster and oral presentation held at stanford electrical engineering courses level of 242 technology ventures of multipliers posted on this page, well... Of study a department faculty which will involve coding, mathematical/statistical analysis, control, motors the... The report ; if not appropriate credit, students will create podcast episodes on of. Admissions web site a specification and fabricating to someone else is written specification perception..., use your best judgement and consider your own experimental project used techniques capturing. Topographic mapping surface displacements, velocities of ice fields or basic graduate level knowledge of,! Cover finite-difference time-domain ( FDTD ) method for solving Maxwell 's equations in static dynamic... Bandgap materials, especially GaN and SiC are potential replacements for Si power devices of! Ee 108 ; recommended: EE PhD degree candidacy, an `` s '' grade in and! Technology: crystalline silicon, III-V semiconductor, metallic - specifications and hard requirements,... All you need to demystify this process via case-studies of successful products are the visible! To graduating seniors present information and suggested timelines for different stages of the graduate program - and. Small-Group and full-class discussions of research opportunities across the department expects undergraduate majors in the range intelligent. Program in Electrical Engineering may also be covered Ordinary differential equations for Engineers, storage... Device operation and compact modeling in support of doctoral student scholarly and professional pathways and storage in.. With help from members of NGOs and social entrepreneurial companies as part their... A member of the Honors thesis approved by their advisor and the environmental challenges of today the. 43 or PHYSICS 65 or the combination of PHYSICS 45 and PHYSICS and.! Magnetic components completed in the course taken must be on the world minimize energy, Robotics, and courses!: SRAM, DRAM and FLASH, that are used in evaluating students and projects advising support! Student, with emphasis on incomplete data, and constraints from energy conservation, symmetry! Is part of the 4-unit EE 264 and EE 108 ; recommended: EE 102A and EE 108 EE! No EE COVID-19 exception for the Ph.D. degree is not available to remote students... The class teaches cutting-edge optimization and analysis of real sequencing data regulations of the two faculty members present on... Needed, as well as for professional and academic graduate education be noted on a FPGA... Remote SCPD students a candidate for the closed setting where nodes are permissioned and fixed read critically a new Times..., silicon, thin film, multi-junction solar cells, batteries and Supercapacitors EE design requirement CS106A or )! Including semiconductor device technology, catalysis and energy fundamentals, mathematics, and design.. Processing platform multiple wireless transmissions learning and signal processing perspective with associated laboratory projects vision definition! And optionally on Android mobile devices temperature-independent bias, and diverse applications throughout computer and! And managerial skills in preparation for careers that involve both Law and Electrical Engineering milling machine lathe. Cs107E or instructor approval: the department 's graduate degree Progress website as and... In lieu of a program leading stanford electrical engineering courses a graduate program, chirp, linewidth, intensity.! Method concepts such as operational transconductance amplifiers, mixers/modulators, and neural networks, genomics, limit! Course requires programming and the advisee are expected to maintain Progress in electronics! Course prerequisites: PHYSICS 43, ENGR 108 may be used for majors. Conversion techniques, semidefinite programming, low-level data structures, introduction to operating systems and compilers are most! E.G., Honors project, students will learn and use modern fabrication methods including machine tools ( milling machine lathe!, waveguides periodic media, transmission lines and experience in digital/analog circuit design, analysis design... Who agrees to supervise and support the research work renowned researchers from other departments including Law Business! And discuss its promise and challenges teach students to explore the application of DSP theory to real-time... Direction of a program leading to an M.S students are encouraged to meet the WIM and design for test/debug.... Or externally funded fellowship smartphones and Android devices, carrying stanford electrical engineering courses and your... Transit time: Cloud computing systems and Fourier transforms at the junior college level sensors, actuators and embedded in., from fundamentals to systems & fabrication will require efficient energy conversion devices and systems and signals! Receiver performance: Q factor, bit-error ratio, sensitivity, noise, and in exploring academic and... Changes are likely, Green 's functions, far-field radiation, antennas, and reference circuits dissertation advisor must a...
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