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SONAR System Applications Certificate - Curriculum 116

Brief Overview

The SONAR System Applications (Resident) curriculum is available to resident students. It can be combined with Fundamentals of Engineering Acoustics (Resident) and Underwater Acoustics (Resident) academic certificate programs for partial fulfillment of requirements for Master of Science in Engineering Acoustics or Master of Engineering Acoustics degrees. Students typically take one course per quarter within a four-quarter period (12 months). The course of studies is designed to improve the student's performance in operational, maintenance, research, engineering, and acquisition positions by providing the students with a firm background in the fundamentals of the theory and practice of the signal processing techniques that underlie naval applications of SONAR systems.

Convenes

Summer

Program Length

4 Quarters

Outcomes

Upon successful completion of the program, you will be able to

  • calculate and analyze the Fourier transform of periodic and non-periodic signals;
  • recognize and manipulate linear time-invariant (LTI) systems;
  • compute the transfer function and frequency response of linear time-invariant systems;
  • design systems to amplitude modulate and demodulate a signal for communication applications;
  • analyze signal frequency contents using the FT and/or the DFT;
  • apply basic theoretical principles and concepts that govern the design, analysis, and operation of passive and active sonar systems;
  • predict the consequences and understand design tradeoffs associated with altering important sonar system parameters such as beamwidth, array gain, probability of detection, probability of false alarm, range and Doppler resolution, etc.;
  • estimate the design parameters for a sonar system to achieve specified operational requirements.

Certificate Requirements

1. Either EO2402 – Introduction to Linear Systems (4/1) or EC2410 – Analysis of Signals and Systems (4/1)

2. Either EO3402 ­– Signals and Noise (3/1) or EC3410 – Discrete-Time Random Signals (3/2).

3. EC4450 – Array Signal Processing (3/2)

4. PH4409 - Engineering Acoustics Capstone Project (2/4)