Praktikum "entwicklung Eines Simulators Zur Bestimmung Abgestrahlter Noise Power Ratio Bei Phased Array Antennen" (d/m/w)
ATR (Airbus/Leonardo)
Attractive compensation; not specified; flexible 3...
Hybrid
Python programming skills
Electrical engineering student status
Understanding of electromagnetic waves
ATR (Airbus/Leonardo) is offering an internship focused on developing a simulator for determining the Noise Power Ratio of phased array antennas, which are increasingly important for satellite communication. The role seeks a motivated student in electrical engineering, telecommunications, or related fields, with knowledge in Python programming and high-frequency technology
Job Summary
The role involves developing a Python-based simulator to quantify Noise Power Ratio improvements for phased array antennas used in satellite constellations.
Candidates will receive mentorship from experienced employees and gain valuable insights into the aerospace industry through digital twin analysis.
The position offers flexible working hours based on a 35-hour work week with attractive compensation and opportunities to shape future technologies.
Matching Summary
Match Score: 75
ATR (Airbus/Leonardo) is offering an internship focused on developing a simulator for determining the Noise Power Ratio of phased array antennas, which are increasingly important for satellite communication. The role seeks a motivated student in electrical engineering, telecommunications, or related fields, with knowledge in Python programming and high-frequency technology.
Salary
Attractive compensation; Not specified; Flexible 35-hour work week
Skills & Requirements
Must-have
Python programming skills
Electrical Engineering student status
Understanding of electromagnetic waves
Nice-to-have
Knowledge of high-frequency technology
Object-oriented programming experience
Interest in spaceflight industry
Key Requirements
Currently enrolled student in Electrical or High-Frequency Engineering
Software Engineering or Computer Science background with RF interest
Fundamental theory knowledge of electromagnetic fields