CDR Sample for Telecommunications Field Engineer
You can get 100% genuine CDR Sample for Telecommunications Field Engineer written by our professional and skilled engineering writers. The samples we provide are the report which have already been submitted and positively assessed by the Engineers Australia for Skilled Migration Visa. Please use the sample for reference purpose only and do not copy and paste from the sample.
CDR Report Sample: Telecommunications Field Engineer ANZSCO Code: 313212
CDR Sample for Telecommunications Field Engineer includes all the necessary reports such as Three Career Episodes, Continuing Professional Development, Summary Statement and Curriculum Vitae. The Content of the CDR Report Sample is as follows:
- Curriculum Vitae: Resume based on a professional template.
- Continuing Professional Development Sample: CPD Sample clearly explains the author’s Engineering Knowledge- 1000 words.
- Telecommunications Field Engineer Career Episode Sample – 1: “Enhanced Learning – Combining MATLAB Simulation with Telecommunication Instructional Modeling (TIMS™) in a Senior Level Communication Systems Course”- 3000 words.
- Telecommunications Field Engineer Career Episode Sample – 2: “Reliable Control of Ship-mounted Satellite Tracking Antenna”- 2150 words.
- Telecommunications Field Engineer Career Episode Sample – 3: “Combining Acoustic Echo Cancellation and Suppression”- 2100 words.
- Telecommunications Field Engineer Summary Statement Sample: Detail explanation of all the competency element- 1150 words.
Telecommunications Field Engineer Career Episode Report: Sample 1
Project Name: Enhanced Learning – Combining MATLAB Simulation with Telecommunication Instructional Modeling (TIMS™) in a Senior Level Communication Systems Course.
In first career episode, the author discusses about the project he carried out when he was a university student which was titled “Enhanced Learning – Combining MATLAB Simulation with Telecommunication Instructional Modeling (TIMS™) in a Senior Level Communication Systems Course”. In this project, his role were:
- To provide experiential learning in their senior level wireless communication systems course.
- To develop, implement and then test real-world communication hardware using real signals such as demodulated audio from a local broadcast.
- To develop a more intuitive sense for how the modulation and demodulation processes are carried out.
- To code in MATLAB™ and test out various ideas including those that support their senior capstone projects.
- To combine the flexibility of MATLAB™ simulation experience plus the hands on TIMS™ system.
Telecommunications Field Engineer Career Episode Report: Sample 2
Project Name: Reliable Control of Ship-mounted Satellite Tracking Antenna
In second Career Episode, the author explains the engineering skills he used in the project he carried out for the fulfillment of Master’s Degree (Telecommunications Field Engineers). His duties and responsibilities in the project “Reliable Control of Ship-mounted Satellite Tracking Antenna” were:
- To maintain the tracking functionality by employing proper control Strategy through fault tolerant control (FTC).
- To design a robust fault diagnosis system.
- To supervise the FTC system.
- To estimate the faults for a class of nonlinear systems acting under external disturbances through the employed fault diagnosis solution.
- To verify effectiveness of the method through implementation and test on an antenna system.
Telecommunications Field Engineer Career Episode Report: Sample 3
Project Name: Combining Acoustic Echo Cancellation and Suppression
In third Career Episode, the author explains about his Master’s thesis he was involved in when he was a Master student. The project name was “Combining Acoustic Echo Cancellation and Suppression”. His Key responsibilities in this project were:
- To suppress the echoes and to reduce the complexity by using Spectral modification, incorporating perceptual theories.
- To cancel low-frequency echo components by using Acoustic Echo Cancellation (AEC).
- To suppress high frequency echo components by using perceptual acoustic echo suppressor (PAES).
- To have virtually the same perceived quality as a full-band AEC, while having a significantly lower complexity and a higher degree of robustness by showing the hybrid scheme.
- To analyze the computational complexity of AE
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