@Article{AndradeCoRoLiViFr:2021:SmHoAr,
author = "Andrade, S{\'e}rgio Henrique and Contente, Gustavo O. and
Rodrigues, Lucas B. and Lima, Luiguy X. and Vijaykumar, Nandamudi
Lankalapalli and Franc{\^e}s, Carlos Renato L.",
affiliation = "{Universidade Est{\'a}cio Nazar{\'e}} and {Universidade
Est{\'a}cio Nazar{\'e}} and {Universidade Est{\'a}cio
Nazar{\'e}} and {Universidade Est{\'a}cio Nazar{\'e}} and
{Instituto Nacional de Pesquisas Espaciais (INPE)} and
{Universidade Federal do Par{\'a} (UFPA)}",
title = "A Smart Home Architecture for Smart Energy Consumption in a
Residence With Multiple Users",
journal = "IEEE Access",
year = "2021",
volume = "9",
pages = "16807--16824",
keywords = "Smart energy control systems, smart outlet, user's indoor
identification, SmartCom.",
abstract = "Smart Energy Control Systems (SECS) has been increasingly
implemented in the Smart homes scenario, due to the possibility of
conditioning and controlling residential energy consumption, thus
contributing to reducing energy losses and unnecessary electrical
consumption. With the evolution of embedded systems in conjunction
with the Internet of Things (IoT), Smart Outlet (SO), and devices
that promote the Users Indoor Identification (UII) environments,
they have assumed fundamental roles in the acquisition of data
from electrical devices and also in the mapping of the
individualized consumption of each resident throughout the day,
providing essential information for SECS Systems as a way to
assist in energy balance with minimal impact on the daily
usability of electrical equipment. However, in most of the works
that propose these types of assistance to SECS based on SO and
UII, they have a massive implementation of sensors throughout the
residence, misinterpretation of the data generated by the
residents, difficulty in the identification of multiple residents.
Thus, the present work proposes an evolution of an SECS
architecture called SmartCom, with the implementation of accurate
identification of electrical equipment through Near Field
Communication (NFC)-based SO (data transfer between the appliance
and the SO) and of multiple inhabitants through Wi-Fi handover
using smartphones, with the least possible impact on the user's
comfort, as well as in the building structure, achieving a
rebalanced residential energy consumption 87.3% of the time it was
used.",
doi = "10.1109/ACCESS.2021.3051937",
url = "http://dx.doi.org/10.1109/ACCESS.2021.3051937",
issn = "2169-3536",
language = "en",
urlaccessdate = "20 maio 2024"
}