Reference no: EM132303047

The following task must demonstrate consistent performance in conditions that are safe and replicate the workplace. Noise levels, production flow, interruptions and time variances should be typical of those experienced in the telecommunications networks engineering field of work and include access to:

• Networked computers
• Simulation software
• Relevant documentation
• A range of industry scenarios or workplace examples

For this task you are to complete the following activities to demonstrate your ability to produce engineering solutions using numerical computations and simulation.

To prepare for the task:

1. Determine, and accurately document, the engineering problems to be solved, and the numerical computations and simulation to be undertaken to design a telecommunications systems using software simulations

Perform the following tasks to use advanced engineering mathematics for a range of complex engineering solutions:

2. Using symbolic and numerical software, analyse and manipulate functions. including conducting operations of entering and manipulating polynomials in suitable software and completing the substitution of values and graphing, analysing the results of the software simulations, comparing these to the derived solutions and adjusting any variables in the calculation process and accurately documenting all numerical software simulations for the engineering problems

3. Numerically, with and without symbolic and numerical software, analyse and manipulate matrices and determinants, analysing the results of the software simulations, comparing these to the derived solutions and adjusting any variables in the calculation process and accurately documenting all numerical software simulations for the engineering problems

4. Use algorithmic control structures to design and debug programs, outputting the results to the screen, a graph and a file, analysing the results of the software simulations, comparing these to the derived solutions and adjusting any variables in the calculation ' process and accurately documenting all numerical software simulations for the engineering problems

5. Use symbolic software to analyse and manipulate complex numbers numerically. analysing the results of the software simulations, comparing these to the derived solutions and adjusting any variables In the calculation process and accurately documenting all numerical software simulations for the engineering problems

6. Use advanced calculus operations of differentiation and Integration, numerically and with symbolic software. to determine and manipulate equations, analysing the results of the software simulations, comparing these to the derived solutions and adjusting any variables in the calculation process and accurately documenting all numerical software simulations for the engineering problems

7. Determine and manipulate ODE equations, both numerically and with symbolic software, analysing the results of the software simulations, comparing these to the derived solutions and adjusting any variables in the calculation process and accurately documenting all numerical software simulations for the engineering problems

8. Numerically and with symbolic software, determine and manipulate Laplace transforms, analysing the results of the software simulations, comparing these to the derived solutions and adjusting any variables in the calculation process and accurately documenting all numerical software simulations for the engineering problems

Complete the following step to design a simulation control system with queues, using software simulations:

9. Using simulation software, design and accurately document telecommunications systems including a simple control system, a queuing system and a stochastic system, and use this to simulate queues.