Implementation Plan:
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Step 1: Initially, we will construct a EMC Radiated Emissions Test System model design consisting of a LED, anechoic chamber, mobile radio and stationary antenna.
Step 2: Then, we will simulate and collect data such as Light Type, Location, Frequency, Electric Field Strength, Measurement Distance, Polarization, Test Condition.
Step 3: Next, we will filter the collected data to retain only frequencies relevant to the VHF safety and distress communication band.
Step 4: Next, we will identify peak emission values for each LED light across measured frequencies and polarizations.
Step 5: Next, we will perform the Risk evaluation and decision support by comparing processed emission values with EMC limits to assess interference risk and decide if safe integration is possible or mitigation is needed for each LED light.
Step 6: Finally, we plot the following performance metrics :
6.1: Electric Field Strength (dBµV/m) vs. Frequency (MHz)
6.2: Number of LED vs. Emission Margin (dB)
6.3: Number of LED vs. Interference Risk Index
6.4: Measurement Distance (m) vs Electric Field Strength (dBµV/m)
Software Requirements:
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1. Development Tool: Matlab-R2023a or above
2. Operating System: Windows-10 (64-bit) or above
Note:
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1) If the proposed plan does not fully align with your requirements, please provide all necessary details—including steps, parameters, models, and expected outcomes—in advance. Kindly ensure that any missing configurations or specifications are clearly outlined in the plan before confirming.
2) If there’s no built-in solution for what the project needs, we can always turn to reference models, customize our own, different math models or write the code ourselves to fulfil the process.
3) If the plan satisfies your requirement, Please confirm with us.
4) Project based on Simulation only.
