Random variables, bit error rate; matched filter; digital modulation techniques; ASK, FSK, QAM, PSK/QPSK, CDMA and W-CDMA systems; signal space; generalized orthonormal signals; information measures-entropy; channel capacity; efficient encoding; error correcting codes;information theory; data compression;coding theory.
This course deals with Transmission media; radio wave propagation; wire and cable transmission systems; fiber-optic transmission systems and transmission lines and antenna systems.
Systems analysis and design; operating performance and interface standards for
voice and data circuits; telecommunications facility planning; outside plant
engineering; surveying; switching and handling systems; mobile systems and
standards; cellular radio systems (GSM and UMTS architecture); PSTN.
A study of selected topics in mathematics and their applications in advanced courses in engineering and other allied sciences. It covers the study of Complex numbers and complex variables, Laplace and Inverse Laplace Transforms, Power series, Fourier series, Fourier Transforms, z-transforms, power series solution of ordinary differential equations, partial differential equations and numerical methods in engineering.
This course deals with a series of lectures and seminars on selected topics that are highly relevant to electronics engineering but are not covered in any of the other formal courses. It covers recent advances in electronics engineering. It is also a venue for the students to present their projects and research.
The entrepreneur is the most important person in a business enterprise, especially in the start-up phase. They will function as the originator, organizer, and operators of their enterprise and will be primarily answerable only to themselves. As such the students must have mastery of themselves as a foundation in their journey to master opportunities and their situation then later to master their enterprise.
This course shall use learner-centered, active, and experiential teaching methods to develop the entrepreneurial mindset in the students. The focus will be on students’ immediate application of the seven self-mastery skills namely:
(1) learning to be,
(2) learning to communicate,
(3) learning to think
(4) learning to intuit,
(5) learning to do,
(6) learning to feel, and
(7) learning to lead towards the attainment of Whole Brain Thinking.
It will also introduce the students to the fundamentals of entrepreneurship. Students will be tasked to engage in various micro-entrepreneurial exercises to encourage inductive learning of these fundamentals. In the process, the students will be expected to engage in a self-assessment of their personal entrepreneurial behaviors, competencies, personality profiles, leadership styles, and thinking preferences, which will serve as a foundation for their development as responsible, disciplined and creative entrepreneurial leaders.
A course on research and development that utilizes the fundamentals of electronics
engineering in the design of an electronic system. It includes the
synthesis of processes, analysis of process conditions, and the analytic,
heuristic, and optimum design of equipment and processes. Economic analysis
is included to estimate the cost of equipment, capital investment, total
product cost, and profitability. Capstone Project 1 covers the development of the
project from ideas to project proposals
Random variables, bit error rate; matched filter; digital modulation techniques; ASK, FSK, QAM, PSK/QPSK, CDMA and W-CDMA systems; signal space; generalized orthonormal signals; information measures-entropy; channel capacity; efficient encoding; error correcting codes; information theory; data compression; coding theory.