Quantum computing is a strongly emerging field. With the advances of the hardware a new era of so called NISQ (Noisy Intermediate Scale Quantum) devices are available now. Exploring the applications and developing applications of this new technology in terms of quantum computing, quantum communication and quantum methods is the goal of this quantum technology research group. Here the group engages in various fields as combinatorical optimizations, optimal control theory, quantum machine learning, quantum error correction, quantum key distribution, education, and support advisory boards regarding quantum computer development.
Quantum Technology@DLR GSOC: Space and satellite missions operation consists of various complex software systems with numerous automated and computer assisted tasks. The German Space Operations Center has a genuine interest to develop and use new processes and technologies. The research group supports the introduction and implementation of quantum technology in space operations with focus on scheduling and planning, communication, satellite control and data analysis. Hereby we collaborate with and are embedded in a rich network including many other groups from DLR, research institutes as e.g. LMU, TUM, UniBW, LRZ and industry partners interested in quantum computing.
More information about Quantum Mission Planning Challenges (QMPC).
Towards a Quantum Spacecraft Operations Centre (Journal of Space Operations & Communicator)
SQOS: Spacecraft Quantum Oncall Scheduling
QMPC: Quantum Mission Planning Challenge
Munich Quantum Valley: Hardware adapted theory and optimal control of qubits
GRAPE4Space: Robust Satellite Attitude via Control Theory
QAthMOS: Telemetry and Health Monitoring System
R-QIP: Reliable Quantum Information Processing
MuQuaNet: A quantum key distribution fiber network:
Feasibility studies and knowledge transfer:
Quantum Computing Hackathons: 5 days hands-on workshops on quantum algorithms with credit points