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Education A master’s degree in telecommunications, electrical or computer engineering is required for this post. A PhD in a relevant domain would be considered a plus. Additional requirements General
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assessment. You will be provided with access to various engineering and computation toolsets along with the high-performance computer. A good background in numerical methods and computational platforms is
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: autonomous and fault-tolerant systems (including health monitoring systems), advanced guidance, control, estimation and optimisation techniques and tools, and the technology development of GNC sensors with a
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engineering or computer sciences is required, with specific skills in: Back-end / Front-end programming languages and frameworks used in the ATD project: ASP.Net, .Net Core, HTML, JavaScript, MS Visual Studio
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technology model that analyses integrated satellite and ground-based sensor data; estimating European launcher carbon footprint, energy security and energy cost savings; proposing meaningful carbon footprint
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associated receiver technologies; advanced signal processing and estimation techniques; alternative PNT solutions such as LEO-PNT, positioning based on terrestrial links and hybrid GNSS; organisation
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required. Experience with the design, development and verification of TT&C and PDT subsystems for space applications is required. Very good knowledge of modern computer systems, simulation and modelling
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testing. Expertise with analogue electronics design, computer-aided design (CAD) or electromagnetic simulation is an asset, as is experience of working on projects and in large teams. Knowledge and
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very good knowledge of on-board digital signal processing techniques and technologies for RF payloads and microwave instruments will be considered an asset. Very good knowledge of modern computer systems
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activation dynamics to study co-contraction patterns and refine joint force estimates. Perform simulations across varying M-Wall radii to assess their effect on gait mechanics, ground reaction forces (GRFs