EUROPEAN SPACE AGENCY
Job Brief
We have a vacancy of Internal Research Fellow (Postdoc) In Artificial Intelligence For Space Software Engineering in our company, EUROPEAN SPACE AGENCY. This vacancy is based in Noordwijk. Please go through the job detail mentioned below.
Position Title: Internal Research Fellow (Postdoc) In Artificial Intelligence For Space Software Engineering
Company: EUROPEAN SPACE AGENCY
Work Type: Full Time
City of work: Noordwijk
Salary:
URL Expiry: 2022-08-22
Posted on: jobsintelecom.net
Job Detail
ESTEC, Noordwijk, Netherlands
- Machine learning (ML) techniques for verification, validation and maintenance, based on the analysis of data captured during verification and validation tests and spacecraft operations.
- Planning techniques to increase the on-board autonomy of spacecraft, in particular in telecommunication and Earth observation constellation missions.
- Model-based system/software engineering to support the development of AI applications and improve the existing tools and methods by using artificial intelligence techniques.
- Optimisation of artificial intelligence techniques in order to facilitate their execution on board spacecraft.
- providing AI/ML expertise for the development of AI/ML systems and their applications (command and control, AOCS and GNC, etc.), whether supporting ESA missions and projects, ESA R&D activities, or ESA working groups on AI/ML;
- supporting the elaboration of an AI/ML strategy for use in space systems and processes, together with an associated roadmap and risks;
- disseminating results of technical reporting through peer-reviewed journal publications, colloquiums and webinars;
- prototype applications, proof of concepts and related tests in the Departmental laboratory facilities to assess technologies developed. This can e.g. be in the areas of mission management, AOCS and GNC algorithms;
- contributing to the development of advanced benchmark problems that can serve as baseline and reference cases for various R&D projects.
For this topic, the objective of the project is to study the state of the art of machine learning and data mining algorithms that would make it possible to detect anomalies in the data recorded during the verification and validation of space systems as well as during space system operations. The anomalies to be detected include regressions with respect to the previous execution of tests, sporadic behaviour and the identification of trends that could lead to anomalies, through automatic and exhaustive analysis of test results and environment data. All spacecraft systems, including attitude control algorithms, are candidates for this anomaly detection process.
For this topic, the objective of the project is to study the state of the art of planning algorithms that would support on-board autonomous operations of a space systems. This could be a telecommunication or Earth observation constellation. Autonomy concepts will be implemented on board one of the constellation spacecraft in order to manage high-level requests (objectives and constraints) sent from the ground and ensure the mission’s highest availability (telecommunication) and greater responsiveness (Earth observation). Similarly it could be applied to orbital robotics and satellite systems (like active debris removal, exploration, space transportation systems).
Model-based system/software engineering: artificial intelligence applications:
For this topic, the objective of the project is to study the state of the art of model-based system/software engineering techniques and tools, focusing on two aspects. The first is adaptation of these techniques to support the development and integration of AI applications in space systems. The second aspect is to identify and develop tools or add-ons to the existing tools that can support the development of system/software (e.g., model verification, code verification, test generation, etc.).
Optimisation: optimisation of models, improvement of performance: Some artificial intelligence techniques require a large amount of memory and high-performance processors. For this topic, the objective of the project is to study and evaluate the different techniques that can be used to ensure the correct execution of AI techniques with minimal resources and an increase in performance through specific libraries (e.g., OpenCV, SIMD) or generation of an optimised compiler (e.g. XLA).
Operational Efficiency
Fostering Cooperation
Relationship Management
Continuous Improvement
Forward Thinking
- a theoretical (academic) background in AI,
- a systems standpoint,
- a pragmatic approach
You should have good interpersonal and communication skills, to interact with the systems engineering AI and MBSE community, and be able to work in a multicultural environment, both independently and as part of a team. Good methodological and organisational skills are required.
You should demonstrate an interest in space as well as the ability and interest to get actively involved in prospective interdisciplinary research.
The working languages of the Agency are English and French. A good knowledge of one of these is required. Knowledge of another Member State language would be an asset.
- Member States, Associate Members or Cooperating States.
Apply Now
To help us track our recruitment effort, please indicate in your cover/motivation letter where (jobsintelecom.net) you saw this job posting.

