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Course Criteria
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2.00 Credits
Laboratory and applications experience with transmission system concepts and analysis is provided to complement the lecture material in 0614-483 Telecommunication Transmission Systems. Students will use circuit simulation software, spreadsheet software, and laboratory equipment to analyze, measure and characterize transmission system hardware components. (0614-483) (On-campus offerings allow concurrent registration in 0614-483) Class 0, Lab 2, Credit 1
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0.00 Credits
One quarter of appropriate work experience in a telecommunications related industry. (0609-363, 0609-407, 0614-465 and 0614-466, 0614-477 or permission of academic adviser) Credit 0
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4.00 Credits
An introduction to fi ber optic telecommunications technology. Review of basic optics including ray, wave and quantum optics. Light propagation through multi-mode and single-mode fiber attenuation, dispersion and nonlinear effects. Introduction to optical components used in communications systems including light emitting diodes, laser diodes, photodiodes and passive optical components. Optical amplifi ers and wave division multiplexing. Emphasis on reading and understanding manufacturers' data sheets for fi ber and optical devices. (0614-483 or 0609-408,1017-212/272 and 1016-304) or equivalent courses Class 4, Credit 4
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3.00 Credits
Today's telecommunications networks rely on timing and synchronization, Quality of Service and capacity engineering. This course studies current and next generation methods and practices in the implementation of the above mentioned topics with respect to carrier networks that handle real time and non-real time traffi c. Routing protocols and layer 3 addressing are also covered with respect to IP networks. (0614-475, 0614-477,1016-304; corequisite 0614-562) Class 3, Credit 3
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2.00 Credits
This course provides the laboratory experience to complement 0614-561 Telecommunications Network Engineering. IP based voice switches and routers are confi gured and tested for interoperability between traditional voice, IP telephony, data and transport equipment. (Corequisite 0614-561) Lab 2, Credit 1
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4.00 Credits
This course provides participants with an introduction to the art and science of wide area network design. Various design approaches are introduced and several heuristic design algorithms are utilized. Blocking networks (telephone voice circuit networks) and delay networks (packet) are studied; greater emphasis is placed on delay networks. The course instills in participants the concept that most networks are holistic entities and therefore, piecemeal approaches to their design yield limited results. A design tool called Delite (design "lite" version) is utilized. The course is taught in a collaborative participatorymanner with considerable student interaction as opposed to straight lecture. Whenever possible, real world examples are utilized to illustrate topics. (0614-479, 0614-561 and 562) Class 4, Credit 4
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3.00 Credits
This course allows upper-class telecommunications engineering technology honors students the opportunity to independently investigate, under faculty supervision, aspects of the telecommunications industry that are not currently covered in existing courses. Proposals for an honors independent study must be approved by the sponsoring faculty, the telecommunications engineering technology program chair and ECT-ET Honors Advocate. Credit variable 2-4
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4.00 Credits
Special topics in telecommunications is an experimental upper level course that will allow innovative topics in the rapidly changing telecommunications fi eld to be offered and evaluated as potential permanent components of the ET curriculum. Class 4, Credit 4
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3.00 Credits
This course allows upper-class telecommunications engineering technology students the opportunity to independently investigate, under faculty supervision, aspects of the electrical industry that are not currently covered in existing course. Proposals for an independent study must be approved by both the sponsoring faculty and the telecommunications engineering technology program chair. Credit variable 2-4
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3.00 Credits
This course will focus on the understanding and application of basic manufacturing processes. Students will be challenged to discover and learn how typical industrial piece parts and assemblies are constructed. Topics include material properties, powder metal processes, bulk deformation processes, metal removal processes and sheet metal forming processes. Class 3, Lab 3, Credit 4
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