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Here are some interesting links:

 

Some interesting links in the Czech language:

 

Information about the topics of the final thesis:

  • You can find a list of the topics in the Studis (Student's information system, which you may access after being admitted to the study).
    • Rather than using the Studis list, you may also find it better contacting immediately someone conducting research in the field of your preference to have a detailed discussion on the subject. You may then receive a topic of your thesis that better suits your focus, skills, and knowledge. Concerning your future supervisor, you can also find a suitable person from an institute other than the Institute of Mathematics. See the list of institutes of the BUT Faculty of Mechanical Engineering where you can find the e-mail address of the person you would like to contact.
    • For your inspiration, here is a list of the topics of last year's master theses:
      • Numerical methods for missing image processing data reconstruction
      • Mathematical optimization of a solar photovoltaic system for a single-family detached home
      • Nonholonomic mechanisms geometry
      • Risk modeling for engineering optimization problems
      • The problem of energy-efficient train control
      • Comparison of Heuristic and Conventional Statistical Methods in Data Mining
      • Synchronization of chaotic dynamical systems
      • Lagrangian tracking of the cavitation bubble
      • Simulation of nonholonomic mechanisms’ motion
      • Numerical model of hollow fiber arrangement in a heat exchanger
      • Fuzzy Sets Use in Cluster Analysis with a Special Attention to a Fuzzy C-means Clustering Method
      • Applications of Quaternions in Robot Control
      • Application of cooperative game theory in Cournot oligopoly
      • Heat transfer solution of solidifying steel system with phase change with moving edge conditions
      • Geometric control theory on nilpotent Lie groups
      • Application of the artificial neural network to calculate the thermodynamic properties
      • Cooperative game theory in local conflicts
      • Optimal control in engineering processes
      • Bifurcations in a chaotic dynamical system
      • Optimization by means of metaheuristics in Python using the DEAP library
      • Mathematical models in strategic decision-making
      • Compressive sampling for effective target tracking in a sensor network
      • Convolutional Neural Networks (CNN)
      • Numerical methods of space-based coronagraph image processing
      • Design optimization of packed bed for thermal energy storage
      • Mathematical description of vehicle motion trajectory
      • Ovality measurement of extruded fiber using three cameras
      • Following multiple object movement by means of cross-correlation
      • Modern methods for restoration of degraded audio signals
      • Data mining
      • Structure From Motion From Multiple Views
      • Models and methods for routing problems in logistics
      • Object tracking in high-speed camera images
      • Modification of Navier_Stokes equations assuming the quasi-potential flow
      • Stability analysis of numerical methods for delay differential equations
      • Modeling of perfusion curves in dynamic magnetic resonance
      • Discrete chaos and its stabilization
      • Acceleration of numerical computation of heat conduction in solids in inverse tasks
      • Modeling of nonlinear diffusion
      • Advanced optimization model for a circular economy
      • Assessment of photobioreactor designs using computational analysis of flow and radiative energy transfer
      • Numerical Method of Image Registration Using Nonlinear Geometric Transform
      • Shape Optimization of the Machine Components due to Variability of Input Data
      • Analyze and economic time series forecasting by using selected statistical methods
      • Combination of numerical mathematics and neural network for the model of breakout prediction
      • Robotic manipulator based on CGA
      • Time minimization for vehicles passing a given trajectory
      • Visualization of spectroscopic data using Principal Component Analysis
      • Methods of indicating chaos in nonlinear dynamical systems

Logistics Analytics

Double Degree master programme in analytical logistics in cooperation with Molde University College
Author Petr VAŠÍK
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