Computing Platforms, Algorithms and Applications

Computing Platforms, Algorithms and Applications

Objectives

Conduct research on large scale parallel and distributed systems and their applications to the fields of cloud based computer systems, image processing and robotics with focus on real application development, deployment and evaluation.

algorithms

Activities and research areas

  • Parallel and distributed systems
  • Computing platforms for image processing and robotics
  • Parallel algorithms
  • Networks and protocols
  • Internet of Things (IoT)
  • Image processing
  • Wireless systems
  • Cybersecurity

Members

Prof. Massimo Maresca

  • Distributed systems
  • Cloud Computing
  • Internet of things (EoT)
  • Computing platforms
  • Networks and protocols
  • Service composition and mashup
  • Personal website

    Selected list of publications

    Prof. Pierpaolo Baglietto

  • Wireless networks
  • Network protocols and network management
  • Networked services
  • Composite telco services
  • Internet of things (EoT)
  • Parallel computing
  • Personal website

    Selected list of publications

    Prof. Alberto Giordano

  • Information processing systems
  • Distributed systems
  • Communication systems and networks
  • Wireless communication systems
  • Applications
  • Personal website

    Prof. Nicola Zingirian

  • Computer networks
  • Wireless systems
  • Mobile Applications
  • Personal website

    Prof. Mauro Migliardi

  • Energy-Aware Security
  • Distributed systems architectures
  • Image processing
  • SIMD architectures
  • Parallel programming languages
  • Parallel Algorithms
  • Design and Implementation of complex Distributed Computing Systems
  • Applications of Pervasive and Cloud Computing in support to Human Memory
  • Personal website

    Selected list of publications

    Prof. Carlo Ferrari

  • Efficient algorithms for collision detection.
  • Anytime algorithms for motion planning.
  • Impulse-based dynamic simulation.
  • Non-monotone assembly planning.
  • Assembly by disassembly.
  • Optimal grasps planning in a RISC robotic environment.
  • Single-Robot Systems
  • Hybrid architecture for mobile manipulators.
  • Compliant manipulation.
  • Robotic vision systems.
  • Multi-Robot Systems
  • Multi-robot motion planning and coordination in a dynamic environment.
  • Multiple source data interpretation for multi-robot navigation.
  • Innovative architecture for multi-robot.
  • Multi-robot simulation environments.
  • Multi-Agent Systems
  • Multi-agent systems design for coordination tasks.
  • Deliberation and reaction in multi-agent systems.
  • Multi-agents developing environments.
  • Personal website

    Selected list of publications

    Laboratory

    Link to the Lab website

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