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ECE 393: Industrial Practice III

0.00 Credits

Indiana University-Fort Wayne

For Cooperative Education students only. Preparation for Course P: 292. Cr. 0.

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ECE 394: Industrial Practice IV

0.00 Credits

Indiana University-Fort Wayne

For Cooperative Education students only. Preparation for Course P: 393. Cr. 0.

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ECE 395: Industrial Practice V

0.00 Credits

Indiana University-Fort Wayne

For Cooperative Education students only. Preparation for Course P: 394. Cr. 0.

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ECE 405: Senior Engineering Design I

3.00 Credits

Indiana University-Fort Wayne

The first course of a two-semester sequence of senior capstone design. Provides students with experience in the process and practice of electrical/ computer component/system design from concept through final design. Emphasis on teamwork, project management, oral and written communication. General lectures on issues important to the engineering profession, such as professional and ethical responsibility, the impact of engineering solutions in a global and societal context, and other contemporary issues. Preparation for Course P: 302 and 362. Cr. 3.

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ECE 406: Senior Engineering Design II

3.00 Credits

Indiana University-Fort Wayne

Design II is an extension of Design I and includes but is not limited to (1) continued research, design, and implementation; (2) oral presentation and/or demonstration of the project to faculty and other interested parties; (3) answering appropriate questions related to the project; (4) generation of a final technical report documenting design, development, and performance of project. Preparation for Course P: 405 with a grade of C or better. Cr. 3.

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ECE 418: Introduction to Computer Graphics

3.00 Credits

Indiana University-Fort Wayne

Introduction to computer graphics using OenGL software interface. Topics include primitives, 2D and 3D transformations, line clipping, animation, text, VBezier curves, and fractals. Assignments involve computer programming in a C environment. Preparation for Course P: ENGR 110, MA 262. Cr. 3.

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ECE 425: Electric Machines

3.00 Credits

Indiana University-Fort Wayne

A study of the energy conversion principles and operating behavior of AC and DC electric machines. Develops circuit models to study their steady-state characteristics and simple mathematical models to study their transient responses. Considers engineering aspects of practical machines. Examines industrial methods of starting and controlling these machines, including the use of power electronics in DC machine control. Emphasis on formulations that lend themselves readily to digital computational techniques. Preparation for Course P: 202. Cr. 3.

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ECE 436: Digital Signal Processing

3.00 Credits

Indiana University-Fort Wayne

Introduction to discrete systems and digital signal processing. Topics include sampling and reconstruction of continuous signals, digital filter design, and frequency analysis including the Fourier transform, the Z transform, the discrete Fourier transform, and the fast Fourier transform. Preparation for Course P: 301. Cr. 3.

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ECE 437: Computer Design and Prototyping

4.00 Credits

Indiana University-Fort Wayne

An introduction to computer organization and design, including instruction set selection, arithmetic logic unit design, datapath design, control strategies, pipelining, memory hierarchy, and I/O interface design. Preparation for Course P: ECE?358, 362. Cr. 4. Hours Class 3, Lab. 3.

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ECE 442: Transmission of Information

3.00 Credits

Indiana University-Fort Wayne

Applications of the principles of signal analysis to amplitude, phase, and frequency modulation systems. Behavior of receivers in the presence of noise. Pulse code modulation and multiplex systems. Emphasis on engineering applications of theory to communication system design. Preparation for Course P: 301 and 302. Cr. 3. Hours Class 3,

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