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theory, dynamical systems, geometry, algebra, analysis and partial differential equations, applied mathematics and numerical analysis. The Department seeks to advance its robust agenda of research
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manipulation learning & control, and differential geometry is a plus. Knowledge of safe control methods including Lyapunov stability, barrier functions, and certified learning frameworks. Hands-on experience
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this development together with the team and implement research-project ideas with national and international impact. Topics of interest: Algebra, algebraic geometry, differential geometry, algebraic topology
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groups in number theory, dynamical systems, geometry, algebra, analysis and partial differential equations, applied mathematics and numerical analysis. The Department seeks to advance its robust agenda
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, differential equations, geometry/topology, numerical analysis, optimization, and statistics. Part of the research is also carried out in close cooperation with other fields of science and technology at NTNU, as
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fundamental and interdisciplinary research in algebra, analysis, differential equations, topology, geometry, numerical analysis, probability, statistics, and data science, with connections to fields across
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stochastic analysis; differential geometry and geometric analysis; algebraic and geometric topology; algebra, number theory and cryptography; dynamical systems; analysis and nonlinear/stochastic partial
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areas of interest include logic, number theory, combinatorics, commutative algebra, geometry (algebraic, arithmetic, and differential), topology, complex analysis, operator theory, and geometric analysis
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imple-ment research-project ideas with national and international impact. Topics of interest: Algebra, algebraic geometry, differential geometry, algebraic topology, complex ge-ometry, quantum topology
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), 1253 – 1264. Martins, K., Blenkinsopp, C. E., Deigaard, R., & Power, H. E. (2018). Energy dissipation in the inner surf zone: New insights from LiDAR‐based roller geometry measurements. Journal