the current project phase and raise the bar of radio astronomy processing software to the benefit of centres, precursor telescopes as well as the entire radio astronomy community. The Execution Framework engineer gridding and (de)convolution methods. Knowledge of radio astronomy data processing pipelines and their scaling scaling properties would be advantageous. Common radio astronomy instrumentation: spectrometers, correlators operating system and standard tools. Desirable: Common radio astronomy instrumentation: spectrometers, correlators
Experience: Systems Engineering and development of Radio Astronomy Telescopes. General advanced applied Systems Engineering Integration, testing and verification of radio astronomy telescopes Baseline establishment and design reviews. Engineering Change Control RF for radio astronomy product development Use of Computer-aided
Extensive technical knowledge and experience related to radio astronomy infrastructure projects Additional Notes: Extensive technical knowledge and experience related to radio astronomy infrastructure projects Display problem-solving
areas Mentoring junior engineers Knowledge: Common radio astronomy instrumentation: spectrometers, correlators operating system and standard tools. Desirable: Common radio astronomy instrumentation: spectrometers, correlators machines and transient search machines Knowledge of Radio Astronomy techniques, and observatory practices
and maintenance of Dish fibre network (DFN) for Radio Telescopes, as well as Optical Fibre Networks (OFN)
Engineering High Importance (Desirable) Engineering for Radio Astronomy Configuration management Development of
optical fibre to contribute to the delivery of Radio astronomy telescopes such as Dish fibre network
Experience: A background in development of systems in radio astronomy, radar, satellite or avionics systems
systems frameworks, preferably TANGO Knowledge of Radio Astronomy techniques, instrumentation and observatory