TY - JOUR
T1 - Optimización de una red definida por software basada en la construcción del fractal de Peano
AU - Matamoros, Oswaldo Morales
AU - Escobar, Jesus Jaime Moreno
AU - Padilla, Ricardo Tejeida
AU - Gutierrez, Ana Gabriela Ramirez
AU - Jimenez, Pedro Flores
N1 - Publisher Copyright:
© 2021 Instituto Politecnico Nacional. All rights reserved.
PY - 2021
Y1 - 2021
N2 - At the present, millions of Microcontroller Units (MCU) are connected simultaneously in a digitally way to be our life more comfortable. These MCU not only interact with us turning on lights or identifying movement in a House but also they perform small and specific tasks such as sensing different parameters such as temperature, humidity, CO2, adjustment of the environmental lights. There is a huge kind of these MCU called small general purpose devices, ESP8266 or RaspberryPi3 or any kind of Internet of Things (IoT) devices, which are connected to internet by means of a central node for sharing their information. The main goal of this article is to design a decentralized IoT network topology in order to connect all the MCU or nodes, based on the fractal Peano, i.e., without using a central one, just sharing some parameters with two adjacent nodes, taking into account that any member of these nodes knows the parameters of the rest of these devices even if they are not adjacent nodes. Specifically, with the proposed network we can access to the entire IoT network in real time in a dynamic way since the topology of the network can be adapted and reconfigured when a new node is added using tools of Artificial Intelligence for its application in a Smart City. This proposal allows to save energy, increasing the time of life of the IoT network, when more wireless small-devices are connected and sensing parameters.
AB - At the present, millions of Microcontroller Units (MCU) are connected simultaneously in a digitally way to be our life more comfortable. These MCU not only interact with us turning on lights or identifying movement in a House but also they perform small and specific tasks such as sensing different parameters such as temperature, humidity, CO2, adjustment of the environmental lights. There is a huge kind of these MCU called small general purpose devices, ESP8266 or RaspberryPi3 or any kind of Internet of Things (IoT) devices, which are connected to internet by means of a central node for sharing their information. The main goal of this article is to design a decentralized IoT network topology in order to connect all the MCU or nodes, based on the fractal Peano, i.e., without using a central one, just sharing some parameters with two adjacent nodes, taking into account that any member of these nodes knows the parameters of the rest of these devices even if they are not adjacent nodes. Specifically, with the proposed network we can access to the entire IoT network in real time in a dynamic way since the topology of the network can be adapted and reconfigured when a new node is added using tools of Artificial Intelligence for its application in a Smart City. This proposal allows to save energy, increasing the time of life of the IoT network, when more wireless small-devices are connected and sensing parameters.
KW - ESP8266
KW - Embedded systems
KW - Peano curve
KW - RaspberryPi3
KW - Softwaredefined network
KW - Swarm sntelligence
UR - http://www.scopus.com/inward/record.url?scp=85102491080&partnerID=8YFLogxK
U2 - 10.13053/CYS-25-1-3319
DO - 10.13053/CYS-25-1-3319
M3 - Artículo
AN - SCOPUS:85102491080
SN - 1405-5546
VL - 25
SP - 33
EP - 45
JO - Computacion y Sistemas
JF - Computacion y Sistemas
IS - 1
ER -