References in zbMATH (referenced in 19 articles )

Showing results 1 to 19 of 19.
Sorted by year (citations)

  1. Nicholson, Bethany; Siirola, John D.; Watson, Jean-Paul; Zavala, Victor M.; Biegler, Lorenz T.: pyomo.dae: a modeling and automatic discretization framework for optimization with differential and algebraic equations (2018)
  2. Baharev, Ali; Domes, Ferenc; Neumaier, Arnold: A robust approach for finding all well-separated solutions of sparse systems of nonlinear equations (2017)
  3. McKenzie, Ross; Pryce, John: Structural analysis based dummy derivative selection for differential algebraic equations (2017)
  4. Peleš, Slaven; Klus, Stefan: Sparse automatic differentiation for complex networks of differential-algebraic equations using abstract elementary algebra (2017)
  5. Pryce, John D.; Nedialkov, Nedialko S.; Tan, Guangning: DAESA -- a Matlab tool for structural analysis of differential-algebraic equations: theory (2015)
  6. Diangelakis, Nikolaos A.; Panos, Christos; Pistikopoulos, Efstratios N.: Design optimization of an internal combustion engine powered CHP system for residential scale application (2014)
  7. Moghadam, Amir Alizadeh; Aksikas, Ilyasse; Dubljevic, Stevan; Forbes, J. Fraser: LQ (optimal) control of hyperbolic PDAEs (2014)
  8. Kirches, Christian; Leyffer, Sven: TACO: a toolkit for AMPL control optimization (2013)
  9. Hartwich, Arndt; Stockmann, Klaus; Terboven, Christian; Feuerriegel, Stefan; Marquardt, Wolfgang: Parallel sensitivity analysis for efficient large-scale dynamic optimization (2011)
  10. Kiparissides, Alexandros; Koutinas, Michalis; Kontoravdi, Cleo; Mantalaris, Athanasios; Pistikopoulos, Efstratios N.: `Closing the loop’ in biological systems modeling -- from the in silico to the in vitro (2011)
  11. Madetoja, Elina; Tarvainen, Pasi: Object-oriented design of process line simulation and optimization -- a case study in papermaking (2010) ioport
  12. Tzolakis, G.; Papanikolaou, P.; Kolokotronis, D.; Samaras, N.; Tourlidakis, A.; Tomboulides, A.: Emissions’ reduction of a coal-fired power plant via reduction of consumption through simulation and optimization of its mathematical model (2010)
  13. Bischof, Christian H.; Bücker, H. Martin; Marquardt, Wolfgang; Petera, Monika; Wyes, Jutta: Transforming equation-based models in process engineering (2006)
  14. Liberti, Leo: Writing global optimization software (2006)
  15. Schopfer, G.; Yang, A.; von Wedel, L.; Marquardt, W.: CHEOPS: A tool-integration platform for chemical process modelling and simulation (2004) ioport
  16. Schopfer, G.; Yang, A.; von Wedel, L.; Marquardt, W.: CHEOPS: A tool-integration platform for chemical process modelling and simulation (2004) ioport
  17. Schopfer, G.; Yang, A.; Von Wedel, L.; Marquardt, W.: Cheops: a tool-integration platform for chemical process modelling and simulation (2004) ioport
  18. Park, Taeshin; Barton, Paul I.: State event location in differential-algebraic models (1996)
  19. Dessouky, Y.; Roberts, C.; Beaumariage, T.: An object-oriented simulation architecture with real-time capabilities (1995)