Open AccessEnergy-driven consolidation in digital home
Author(s) -
Rémi Druilhe,
Matthieu Anne,
Jacques Pulou,
Laurence Duchien,
Lionel Seinturier
Publication year - 2013
Language(s) - English
Resource type - Conference proceedings
DOI - 10.1145/2480362.2480580
Subject(s) - consolidation (business) , energy consumption , computer science , power consumption , task (project management) , home automation , embedded system , real time computing , telecommunications , electrical engineering , power (physics) , engineering , business , physics , accounting , systems engineering , quantum mechanics
As our society becomes more and more digital, the corresponding demand for electric energy is increasing. Despite the power efficient design of devices, this rising trend of energy consumption does not weaken because of more and more devices used in our daily life. Collaboration strategies between devices can reduce their overall electrical consumption. Consolidation -- i.e., migrating tasks among devices to place into low power state or to switch off a maximum of unused devices -- is a mean of optimizing the consumption of a group of devices. So far, consolidation is mainly used in datacenters. Here, we propose a model to extend this approach to Digital Home. This model takes into account properties, such as the unforeseeable appearance of devices or restrictions due to task nature. Its implementation in a Digital Home environment saves around 25% of the energy consumption in a scenario based on the daily life of a family of four persons.
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