Intelligent Electrical Multi Outlets Controlled and Activated by a Data Mining Engine Oriented to Building Electrical Management
A. Massaro. International Journal on Soft Computing, Artificial Intelligence and Applications (IJSCAI), 7 (4):
20(November 2018)
DOI: 10.5121/ijscai.2018.7401
Abstract
In the proposed paper are discussed results of an industry project concerning energy management in
building. Specifically the work analyses the improvement of electrical outlets controlled and activated by a
logic unit and a data mining engine. The engine executes a Long Short-Terms Memory (LSTM) neural
network algorithm able to control, to activate and to disable electrical loads connected to multiple outlets
placed into a building and having defined priorities. The priority rules are grouped into two level: the first
level is related to the outlet, the second one concerns the loads connected to a single outlet. This algorithm,
together with the prediction processing of the logic unit connected to all the outlets, is suitable for alerting
management for cases of threshold overcoming. In this direction is proposed a flow chart applied on three
for three outlets and able to control load matching with defined thresholds. The goal of the paper is to
provide the reading keys of the data mining outputs useful for the energy management and diagnostic of the
electrical network in a building. Finally in the paper are analyzed the correlation between global active
power, global reactive power and energy absorption of loads of the three intelligent outlet. The prediction
and the correlation analyses provide information about load balancing, possible electrical faults and energy
cost optimization.
%0 Journal Article
%1 noauthororeditor
%A Massaro, Alessandro
%D 2018
%J International Journal on Soft Computing, Artificial Intelligence and Applications (IJSCAI)
%K (LSTM) Correlation Data Electrical Energy Grids Intelligent KNIME Load Long Management Matrix Memory Mining Monitoring Network Neural Outlets Piloting Routing Short-Term Smart and
%N 4
%P 20
%R 10.5121/ijscai.2018.7401
%T Intelligent Electrical Multi Outlets Controlled and Activated by a Data Mining Engine Oriented to Building Electrical Management
%U http://aircconline.com/ijscai/V7N4/7418ijscai01.pdf
%V 7
%X In the proposed paper are discussed results of an industry project concerning energy management in
building. Specifically the work analyses the improvement of electrical outlets controlled and activated by a
logic unit and a data mining engine. The engine executes a Long Short-Terms Memory (LSTM) neural
network algorithm able to control, to activate and to disable electrical loads connected to multiple outlets
placed into a building and having defined priorities. The priority rules are grouped into two level: the first
level is related to the outlet, the second one concerns the loads connected to a single outlet. This algorithm,
together with the prediction processing of the logic unit connected to all the outlets, is suitable for alerting
management for cases of threshold overcoming. In this direction is proposed a flow chart applied on three
for three outlets and able to control load matching with defined thresholds. The goal of the paper is to
provide the reading keys of the data mining outputs useful for the energy management and diagnostic of the
electrical network in a building. Finally in the paper are analyzed the correlation between global active
power, global reactive power and energy absorption of loads of the three intelligent outlet. The prediction
and the correlation analyses provide information about load balancing, possible electrical faults and energy
cost optimization.
@article{noauthororeditor,
abstract = {In the proposed paper are discussed results of an industry project concerning energy management in
building. Specifically the work analyses the improvement of electrical outlets controlled and activated by a
logic unit and a data mining engine. The engine executes a Long Short-Terms Memory (LSTM) neural
network algorithm able to control, to activate and to disable electrical loads connected to multiple outlets
placed into a building and having defined priorities. The priority rules are grouped into two level: the first
level is related to the outlet, the second one concerns the loads connected to a single outlet. This algorithm,
together with the prediction processing of the logic unit connected to all the outlets, is suitable for alerting
management for cases of threshold overcoming. In this direction is proposed a flow chart applied on three
for three outlets and able to control load matching with defined thresholds. The goal of the paper is to
provide the reading keys of the data mining outputs useful for the energy management and diagnostic of the
electrical network in a building. Finally in the paper are analyzed the correlation between global active
power, global reactive power and energy absorption of loads of the three intelligent outlet. The prediction
and the correlation analyses provide information about load balancing, possible electrical faults and energy
cost optimization. },
added-at = {2018-12-06T06:32:38.000+0100},
author = {Massaro, Alessandro},
biburl = {https://www.bibsonomy.org/bibtex/26364867954cd8e89c9fa816121ccc41d/leninsha},
doi = {10.5121/ijscai.2018.7401},
interhash = {715ce46c4daef20604b81fc40df9d58a},
intrahash = {6364867954cd8e89c9fa816121ccc41d},
issn = {23191015},
journal = {International Journal on Soft Computing, Artificial Intelligence and Applications (IJSCAI)},
keywords = {(LSTM) Correlation Data Electrical Energy Grids Intelligent KNIME Load Long Management Matrix Memory Mining Monitoring Network Neural Outlets Piloting Routing Short-Term Smart and},
language = {English},
month = {November},
number = 4,
pages = 20,
timestamp = {2018-12-06T06:32:38.000+0100},
title = {Intelligent Electrical Multi Outlets Controlled and Activated by a Data Mining Engine Oriented to Building Electrical Management },
url = {http://aircconline.com/ijscai/V7N4/7418ijscai01.pdf},
volume = 7,
year = 2018
}