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University: Rochester Institute of Technology (RIT)
Professor: Ron Fulle
Department: Telecommunications BS & MS Program within the College of Applied Science and Technology (CAST)

Using OPNET Transport Planner to compare fully-meshed, star and ring topologies by Shaun Bhagwandin-- May 2010.

The full paper is accessible here [PDF].

A fiber backbone network for a China based wireless network by Supriya Kulkarni--2009

As the wave of Restructuring hits China Telecom industry, the leading telecom companies have started to expand and revamp their networks. “As part of the move, China Telecom has acquired the CDMA line of China Unicom, and China Unicom has been merged with China Netcom. Another incumbent operator, China Mobile, has acquired China Railcom”.[1]

The full paper is accessible here [PDF].

Eleven Caribbean islands are networked together by Godwin George—2009

In the Caribbean there is a regional force that maintains Law and order, and also track down local and international crime lord. It has been a challenge to ensure effect coordination and communication between the different headquarters which are located in 20 plus Island through the Caribbean.

The full paper is accessible here [PDF].

A modern fiber network for multiple locations in the Dominican Republic is designed by Paul Vicioso Osoria--2009

4Com is a telecommunications company in the Dominican Republic that offers integrated services of Internet, digital television and voice to personal customers, as well as specialized services to businesses, institutions and other service providers, ensuring reliable service, high quality, accessible cost and highly secure infrastructure. The voice, data and video network is fully supported over IP technology; the last mile to the customer is primarily based on WiMax technology with point to point microwave access. The large volumes of information generate by the customers is routed through the internal fiber backbone.

Getting to Know OPNET Transport Planner by: Franklin Perez Coste

The main goal of this graduate MS in Telecommunications paper is to demonstrate how graduate students can learn about OPNET Transport Planner in a general sense from designing a network. The strategy used is to create several simple scenarios in which to practice and use as many attributes as possible from the OPNET Transport Planner suite. This is an excellent first step in the pathway to becoming proficient with this powerful tool.

Indian University Nation-wide Terrestrial Backbone Network by: Abhishek R. Sharma

The fictitious scenario for this paper is as follows: Indian Universities constitute one of the largest Higher Educations Systems in the world. “With 265 universities and 13150 affiliated colleges it is a great challenge to ensure effective communications…” Fast changing curricula and frequent introduction of new subjects impose a great demand on the system in general. Since technology is a driving force in contemporary education, the Government of India has launched a series of ambitious programs to bring about a qualitative change in the academic infrastructure. A.B. Corp Consultancy group has been hired to design a network that will provide a state-of-the-art campus wide network. OPNET Transport Planner is utilized in this scenario to help professionally address this specific opportunity.

The full paper is accessible here [PDF].

China—A Nationwide Fiber Optic Network by: Qian Li

Utilizing a scenario that basically encompasses the entire country of China, this project is to design and develop a nation-wide network, then to test different “what if” scenarios with varying topologies, traffic matrices and configurations. Comparisons of the results are utilized to determine the most effective and least costly network design among those tried. Through the use of this fictitious scenario, Qian Li is able to demonstrate the use of various OPNET Transport Planner features as well as the ease of comparison among different designs.

The full paper is accessible here [PDF].

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