Case studies for a new IoT programming paradigm: Fluidware
@proceedings{,
year = 2019,
keywords = {Fluidware; IoT programming; coordination},
status = {Published},
venue_list = {--},
series = {CEUR Workshop Proceedings},
author = {Mariani, Stefano and Casadei, Roberto and Fornari, Fabrizio and Fortino, Giancarlo and Pianini, Danilo and Re, Barbara and Russo, Wilma and Savaglio, Claudio and Viroli, Mirko and Zambonelli, Franco},
title = {Case studies for a new IoT programming paradigm: Fluidware},
abstract = {A number of scientific and technological advancements enabled turning the Internet of Things vision into reality. However, there is still a bottleneck in designing and developing IoT applications and services: each device has to be programmed individually, and services are deployed to specific devices. The Fluidware approach advocates that to
truly scale and raise the level of abstraction a novel perspective is needed, focussing on device ensembles and dynamic allocation of resources. In this paper, we motivate the need for such a paradigm shift through three
case studies emphasising a mismatch between state of art solutions and desired properties to achieve},
volume = 2502}
year = 2019,
keywords = {Fluidware; IoT programming; coordination},
status = {Published},
venue_list = {--},
series = {CEUR Workshop Proceedings},
author = {Mariani, Stefano and Casadei, Roberto and Fornari, Fabrizio and Fortino, Giancarlo and Pianini, Danilo and Re, Barbara and Russo, Wilma and Savaglio, Claudio and Viroli, Mirko and Zambonelli, Franco},
title = {Case studies for a new IoT programming paradigm: Fluidware},
abstract = {A number of scientific and technological advancements enabled turning the Internet of Things vision into reality. However, there is still a bottleneck in designing and developing IoT applications and services: each device has to be programmed individually, and services are deployed to specific devices. The Fluidware approach advocates that to
truly scale and raise the level of abstraction a novel perspective is needed, focussing on device ensembles and dynamic allocation of resources. In this paper, we motivate the need for such a paradigm shift through three
case studies emphasising a mismatch between state of art solutions and desired properties to achieve},
volume = 2502}