Simulink

Simulink® is an environment for multidomain simulation and Model-Based Design for dynamic and embedded systems. It provides an interactive graphical environment and a customizable set of block libraries that let you design, simulate, implement, and test a variety of time-varying systems, including communications, controls, signal processing, video processing, and image processing. Simulink is integrated with MATLAB®, providing immediate access to an extensive range of tools that let you develop algorithms, analyze and visualize simulations, create batch processing scripts, customize the modeling environment, and define signal, parameter, and test data.


References in zbMATH (referenced in 633 articles , 1 standard article )

Showing results 601 to 620 of 633.
Sorted by year (citations)

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  1. Zajc, Matej: Rapid prototyping and verification of massively parallel algorithms (2001)
  2. Constantinescu, D.; Croft, E. A.: Smooth and time-optimal trajectory planning for industrial manipulators along specified paths (2000)
  3. Hung, George K.; Ciuffreda, Kenneth J.: A unifying theory of refractive error development (2000)
  4. Jenayeh, Imad; Huecker, Jan: Toolbox für einfache Hardwarekopplung unter MATLAB und Echtzeit-Simulationen in SIMULINK. A toolbox for simple hardware access under MATLAB and real-time simulation with SIMULINK. (2000) ioport
  5. Kübler, R.; Schiehlen, W.: Virtual montage of mechanisms (2000)
  6. Si Fodil, Mohand; Guly, Franois; Siarry, Patrick; Tyran, Jean Luc: A fuzzy controller for the real time supervision (2000) ioport
  7. Šolc, František: Matrix model of robot in Matlab-Simulink (2000)
  8. Tudoret, Stéphane; Nadjm-Tehrani, Simin; Benveniste, Albert; Strömberg, Jan-Erik: Co-simulation of hybrid systems: Signal-Simulink (2000)
  9. Unbehauen, H.; Vakilzadeh, I.; Dastych, J.: Design of relay-controlled, linear time-varying feedback systems (2000)
  10. Zweiri, Yahya H.; Whidborne, James F.; Seneviratne, Lakmal D.: Numerical inversion of the dynamic model of a single-cylinder Diesel engine (2000)
  11. Johansson, K. H.; Egerstedt, M.; Lygeros, J.; Sastry, S.: On the regularization of Zeno hybrid automata (1999)
  12. Kandel, A.; Luo, Y.; Zhang, Y.-Q.: Stability analysis of fuzzy control systems (1999)
  13. Khoo, Michael C. K.: Physiological control system. Analysis, simulation, and estimation (1999)
  14. Köhne, M.; Schuhen, M.; Schönberger, D.: Modelling and simulation of purification processes in wastewater treatment plants using the modular toolbox KSIM (1999)
  15. Nenninger, Gero M.; Schnabel, Mark K.; Krebs, Volker G.: Modelling, simulation, and analysis of hybrid dynamical systems using net state models. (1999) ioport
  16. Nenninger, Gero M.; Schnabel, Mark K.; Krebs, Volker G.: Modellierung, Simulation und Analyse hybrider dynamischer Systeme mit Netz-Zustands-Modellen. Modelling, simulation, and analysis of hybrid dynamical systems using net state models. (1999) ioport
  17. Shampine, Lawrence F.; Reichelt, Mark W.; Kierzenka, Jacek A.: Solving index-1 DAEs in MATLAB and Simulink (1999)
  18. Virant, J.; Zimic, N.; Mraz, M.: (T)-type fuzzy memory cells (1999)
  19. Xia, Hao: Stable worst-case iterative identification and control redesign via unfalsification (1999)
  20. Maffezzoni, C.; Girelli, R.: MOSES: Modular modelling of physical systems in an object-oriented database (1998)

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