Mathematical models for collective behaviour

Additional Info

  • ECTS credits: 6
  • University: University of L'Aquila
  • Semester: 3
  • Objectives:

     

    The course is inspired to create models to reach a high level of efficiency across various sectors
in cities and communities, producing at the same time important impacts on the social cohesion.
The course will be coordinated by a mathematician but will taught by different actors from the area of ICT,
renewable energy, transport and logistics

  • Topics:

     

    The course shall account for a set of multi-disciplinary concerns: elaboration of a general smart planning model; modeling and quantification of energy flows across main sectors. Intelligent energy distribution networks; ICT infrastructure design model (hybrid communication infrastructure); sustainable mobility (e.g.: via suitably adapted the classical first order models of Lighthill- Whitham-Richardson type and the second order of Aw-Rascle) and last-mile logistic; public building
monitoring and remote diagnosis; smart health.
Mathematical models for validation and large scale simulation.

Read 5572 times Last modified on Sunday, 09 February 2014 20:08