a long distance
telecommunication network with the same level of depth and detail as practiced by
professional telecommunication engineers.
Project specifications
Assume that You are a network engineering at ECU, WA. You have been asked to take the
role of a project leader for a project on developing a communication network between
School of Engineering at Joondalup Campus, ECU and a new ECU Wireless Research
Centre at Albany, WA. You are required to design a complete communication network
between School of Engineering, Joondalup campus & the research centre at Albany. Your
design should follow the guidelines practiced by professional engineers, and should be cost
effective.
Outcomes of the systems should meet the following requirements –
• 60 workstations in Joondalup and 25 workstations in Albany campus (analyse
and assume traffic load as necessary)
• There is an option to get a license for RF spectrum give it can be accommodated
within budget.
• Bit rate for each workstation: 1.5 Mbps download, 512 Kbps upload
• Bit Error Rate: 1 × 10-7
• Availability: 99% (averaged over 1 year)
• Secured data transmission
• Minimum cost (maximum budget 1.5 million, but you need to minimize cost)
• Consider diversity (your network may be used for new research centre at Mt
Lawley and Bunbury campus )
• Consider existing systems in place.
• Assume lands are available if your design requires installation of transmission
medium.
Deliverables
• Choosing all components of the system, including servers, routers, frequency bands,
modulation scheme, power levels, etc.
• For each component, you need to first specify, using proper design and analysis, the
minimum performance parameters required, and then pick a make and model that
meets those performance parameters, without reverting to over-designed solutions.
• Providing a detailed system performance analysis (Opnet or similar simulation s/w)
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School of Engineering Telecommunication Networks Project Aim The purpose of this project is to achieve the skills required for designing a long distance telecommunication network with the same level of depth and detail as practiced by professional telecommunication engineers. Project specifications Assume that You are a network engineering at ECU, WA. You have been asked to take the role of a project leader for a project on developing a communication network between School of Engineering at Joondalup Campus, ECU and a new ECU Wireless Research Centre at Albany, WA. You are required to design a complete communication network between School of Engineering, Joondalup campus & the research centre at Albany. Your design should follow the guidelines practiced by professional engineers, and should be cost effective. Outcomes of the systems should meet the following requirements – • 60 workstations in Joondalup and 25 workstations in Albany campus (analyse and assume traffic load as necessary) • There is an option to get a license for RF spectrum give it can be accommodated within budget. • Bit rate for each workstation: 1.5 Mbps download, 512 Kbps upload -7 • Bit Error Rate: 1 × 10 • Availability: 99% (averaged over 1 year) • Secured data transmission • Minimum cost (maximum budget 1.5 million, but you need to minimize cost) • Consider diversity (your network may be used for new research centre at Mt Lawley and Bunbury campus ) • Consider existing systems in place. • Assume lands are available if your design requires installation of transmission medium.Deliverables • Choosing all components of the system, including servers, routers, frequency bands, modulation scheme, power levels, etc. • For each component, you need to first specify, using proper design and analysis, the minimum performance parameters required, and then pick a make and model that meets those performance parameters, without reverting to over-designed...