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Erscheinungsjahr
- 2005 (24) (entfernen)
Institut
- IfB - Institut für Bioengineering (24) (entfernen)
Dokumenttyp
Schlagworte
- Alternating plasticity (1)
- Analytischer Zulaessigkeitsnachweis (1)
- Axialbelastung (1)
- Axially cracked pipe (1)
- Deformation (1)
- Design-by-analysis (1)
- Einspiel-Analyse (1)
- Einspiel-Kriterium (1)
- Einspielen <Werkstoff> (1)
- Evolutionary Neurocontrol (1)
- FEM (1)
- Finite-Elemente-Methode (1)
- Global and local collapse (1)
- Grenzwertberechnung (1)
- Limit analysis (1)
- Low-Thrust Propulsion (1)
- Plastizität (1)
- Pressure loaded crack-face (1)
- Progressive plastic deformation (1)
- Shakedown analysis (1)
- Shakedown criterion (1)
- Spacecraft Trajectory Optimization (1)
- Traglastanalyse (1)
- alternierend Verformbarkeit (1)
- fortschreitende plastische Deformation (1)
Low-thrust space propulsion systems enable flexible high-energy deep space missions, but the design and optimization of the interplanetary transfer trajectory is usually difficult. It involves much experience and expert knowledge because the convergence behavior of traditional local trajectory optimization methods depends strongly on an adequate initial guess. Within this extended abstract, evolutionary neurocontrol, a method that fuses artificial neural networks and evolutionary algorithms, is proposed as a smart global method for low-thrust trajectory optimization. It does not require an initial guess. The implementation of evolutionary neurocontrol is detailed and its performance is shown for an exemplary mission.