Engineering Courses
Some of the engineering courses are outlined as follows:
- BUILDING APPLICATIONS FOR INFORMATION SYSTEMS (4 credit hours): This is the main programming skills in the context of consumer software applications with the use of more sophisticated language including Ruby or Python. Rapid designs of different types of information – focused applications to collect, analyses, convert, adjust and print data. Applications are collected from statistics, pattern matching, social computing as well as computer games.
- ELEMENTARY PROGRAMMING CONCEPTS (1 CREDIT HOUR): The basic idea and programming skills in advance language:
- Flow of control: selection, iteration and sub-programs
- Data structures: strings, arrays, records, lists and tables
- Algorithms with the use of selection and iteration. That is, decision making, determining maximal or minimal, searching sorting simulation and so on.
Suitable programming design, structures as well as styles are giving special attention, same with testing and debugging as well.
- DISCRETE MATHEMATICS (4 credit hours): This is introduction to mathematical principles of computer science some of the topics are propositional and predicate logic, set theory functions and relations, development of functions and asymptotic notation, introduction to algorithms, elementary combinations with graph theory in addition to discrete probability theory.
- INTRODUCTION TO ELECTRONIC CIRCUITS (4 credit hours): Electronic circuits have its base from this course. It is the major concepts of voltage as well as current, kirchoff’s voltage with current laws, ohms law, and voltage with current sources. The venin circuits with the use of effective amplifiers, diodes and transistors, small signal analysis, energy and power. Similarly there are time and frequency domain analyses in RLC circuits. Again, there are basic passive and active electronic filters. This is coupled with laboratory experience in addition to electrical signals and circuits.
- INTRODUCTION TO SIGNALS AND SYSTEMS (4 CREDIT HOURS): This is the theory and application of signals as well as systems engineering non stop and tactful time. Non stop time, linear time – invariant systems, impulse response convolution. Fourier series, Fourier transforms spectrum, frequency response and filtering. The sample that leads towards to fundamental digital signal processing with the applications of discrete time. Fourier coupled with discrete Fourier transform, Laplace transform, transfer functions, pole and zeros stability. The usage of Laplace transforms theory to RLC circuit analysis. We also have introduction to communications control and signal processing.
- ELECTROMAGNETICS I (4 credit hours): This involves vector calculus, Electrostatistics, Magnectostatics, Time –varying fields: It as well call for Faraday’s Law and displacement current. Additionally, there are Maxwell’s equations in varying format as well as Traveling waves and Phasors. Again, there is uniform plane waves coupled with reflection and transmission at normal incidence. Also we have transmission lines and the laboratory part may contain experiments in addition to transmission lines, classroom demonstrations and the application of computer simulation exercises.
- ELECTRONIC SENSING SYSTEMS ( 3 credit hours): This is the beginning of properties as well as interaction of electromagnetic energy regarding naval usage of communication, radar, and electro-optics. Extra topics consist of sound navigation and ranging as well as computer monitored systems.
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