Bachelor’s / Master’s Projects

  • Comsol simulations of particles in peristaltic tube with periodic and closed boundary conditions
  • Quantify steady-state radial particle distribution as a function of system parameters
  • Reconcile findings in terms of potential lift forces
  • Calculate flow fields in human vasculature recording
  • Train image analysis to automatically identify sprouting or rupture events
  • Correlate flow / resource availability and sprouting / rupture
  • Actin-staining in small migrating Physarum
  • Change in response to attracting food stimulus / aversive stimulus
  • Reconcile findings with hypothesis of softening / stiffening universal to attracting / aversive stimuli
  • Code network minimizing supply heterogeneity
  • Constrain simulation by experimentally accessible parameters
  • Select best network architecture for experimental implementation
  • Establish that nuclei become inactive during nuclei division by dying and fixing micro-plasmodia
  • Track timing and position when nuclei loose signal
  • Check, if division time is nuclei history dependent