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Course Criteria
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1.00 - 2.00 Credits
This course provides future engineers and engineering technologists with a sound foundation in business principles. It will encompass four main topics in one course (4-in-One). The selected major topics are: engineering economics, ethics, diversity and project management with business principles covered as part of each topic. It is envisioned that the course will quickly lay a foundation in project management basics and utilize a contemporary PC-based project management tool. This topic will primarily be covered in one two-hour lab each week. The fi rst half of the "traditional" lecture series will introduceand develop a keen understanding of core engineering economics. The latter part of the "traditional" lecture series of the course will introduce and developbusiness engineering ethics and the role of diversity in the workplace. (Third year or higher, at least one co-op block, knowledge of a spreadsheet application like EXCEL and knowledge
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4.00 Credits
This course will explore the creation, processing, and distribution of raw and compressed digital video formats over different communication networks such as wireless, cable, and fi ber. The course will have a special emphasis on digital television applications such DTV, HDTV, and IPTV. The course will also explore different video distribution network topologies and protocols for the internet, cable, and enterprise networks for video conferencing. (0614-271 Telecommunications Fundamentals or instructor permission) Credit 4
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3.00 Credits
Voice is perhaps the most basic form of communication and modern networks must continue to support high-quality voice communication. This course examines the basic characteristics of voice in both the time and frequency domain and shows on-line how these characteristics affect the requirements of communication networks. Both analog and digital representations of voice signals are considered, including advanced voice coding (e.g, G 729) for wireless and VoIP systems. The course covers baseband and carrier-based transmission of voice as well as Real Time Protocol (RTP) for VoIP. Signaling protocols for call processing for both circuit-switched and packet-switched communication are also covered. This course is similar to 0614-465, but it has no associated laboratory course and it requires a research paper. Students may not take both this course and 0614-465 for credit. (0614-271) Credit 4
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3.00 Credits
Voice is perhaps the most basic form of communication and modern networks must continue to support high-quality voice communication. This course examines the basic characteristics of voice in both the time and frequency domain and shows how these characteristics affect the requirements of communication networks. Both analog and digital representations of voice signals are considered, including advanced voice coding (e.g, G 729) for wireless and VoIP systems. The course covers baseband and carrier-based transmission of voice as well as Real Time Protocol (RTP) for VoIP. Signaling protocols for call processing for both circuit-switched and packet-switched communication are also covered. Students may not take both this course and 0614-464 for credit. (0614-271) Credit 3
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2.00 Credits
This course provides the laboratory component for material presented in 0614-465 and 0614-464. Day and evening sections are offered in sequence with offerings of course 0614-465. Distance learning sections are offered as an intensive weekend lab in conjunction with Distance Learning section 0614-464. Distance Learning students must have completed either prerequisite prior to attending the scheduled RIT intensive weekend lab. On-Campus Day and Evening students may register concurrently with on-campus offerings of 0614-465. Class 0, Lab 2, Credit 1
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4.00 Credits
This course covers modern and current switching, protocol, transmission, signaling and transport concepts used in public and private telecommunications networks. MPLS, GMPLS, Signaling System #7, SONET, optical, packet and circuit switching fabrics are studied. Circuit Switching, Frame Relay and ATM are introduced for comparison. (0614-465 and 0614-466 or 0614-464, 0614-477) Class 4, Credit 4
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3.00 Credits
This course provides a practical study of voice and data communications from the point of the OSI seven-layer and the TCP/IP fi ve-layer protocol model. Traditional circuit switched telecommunications as well as VoIP are studied. This course covers the operation of the lower four layers in detail by examining some of the foundation laws including Nyquist and Shannon as well as selected protocols. Emphasis is placed on data internetworking, local-area networking and wide-area networking. This course is a problem based course in that students apply the learning to various computer and networking mathematical problems. Lab work ensures a level of networking competency and provides reinforcement of concepts developed in the lecture. (1016-319, 1016-261, 0614-271 or permission of the instructor)
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4.00 Credits
This course provides an intensive overview of the art and science of management of emerged and emerging telecommunications networks. It integrates technical, management and fi nancial aspects of network management with emphasis on defi ning requirements, identifying methods of proactive measurement as well as providing specific study of the Telecommunications Management Network (TMN) architecture model and interface specifi cations. The OSI and TMN compliant Network Management Package-NetExpert is used as a real-world reference. Where possible, other real-world examples are utilized to illustrate lecture topics. A case study/team project is researched and presented. (0614-465 and 0614-466 or 0614-464, 0614-477) Class 4, Credit 4
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4.00 Credits
This course provides an introductory overview of domestic and international telecommunications policy and issues with special emphasis on domestic policy, regulation and law. Current issues, trends and standards will also be discussed. The course starts with a basic defi nition of telecommunications and why policy, regulation/deregulation and law are important to understand. It then moves to the history of US telecommunications development with emphasis on the regulatory environment and continues with discussions of current US regulatory policy at the state and federal levels. Current sweeping changes in the regulatory and legal arenas and the move to a new US and world model will be discussed. Credit 4
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0.00 Credits
Fundamentals of transmission systems are introduced. Different types of transmission systems such as coaxial, fi ber optic, microwave, and satellite systems are studied and compared. At the end of this course students will be able to apply transmission system theory to the analysis and design of copper, fi ber optic, and wireless transmission systems. (0609-333, 1016-304) Class 3, Lab 0, Credit 3
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