TY - GEN
T1 - IAC-17.B5.1.2
T2 - 68th International Astronautical Congress: Unlocking Imagination, Fostering Innovation and Strengthening Security, IAC 2017
AU - Carrasquilla-Batista, Arys
AU - Chacón-Rodríguez, Alfonso
N1 - Publisher Copyright:
© Copyright (2017) by International Astronautical Federation All rights reserved.
PY - 2017
Y1 - 2017
N2 - Nowadays, climate change effects has been shown their negative impact in all human activities. Therefore there is a growing need in various research fields including protected horticulture industry to record and process data from multiple sensors, sensors sometimes located in remote greenhouses, miles apart from each other. The usual approach to sensor data recording implies separate measurement equipment for each variable, making difficult and expensive the integration and processing of joint data. In this paper an affordable solution is here proposed, providing with an integrated multivariable measurement environment, using commercial-off-the shelf (COTS) and taking advantage of the ubiquitous computing capabilities available today, in what is generally known as Internet of Things. The proposed system was successfully tested as a monitor to measure drainage (milliliters) and electrical conductivity (mS/cm) on cucumber crops. Multiple variables (drainage, electrical conductivity, as inputs and irrigation as output) are associated as linguistic variables for decision-making considering a Mandani Fuzzy Logic Controller. Furthermore, captured data is sent to a remote database that is connected to Internet, where researchers can perform various data analysis online for monitoring and decision-making towards mitigation of climate change effects on sensible tropical crops.
AB - Nowadays, climate change effects has been shown their negative impact in all human activities. Therefore there is a growing need in various research fields including protected horticulture industry to record and process data from multiple sensors, sensors sometimes located in remote greenhouses, miles apart from each other. The usual approach to sensor data recording implies separate measurement equipment for each variable, making difficult and expensive the integration and processing of joint data. In this paper an affordable solution is here proposed, providing with an integrated multivariable measurement environment, using commercial-off-the shelf (COTS) and taking advantage of the ubiquitous computing capabilities available today, in what is generally known as Internet of Things. The proposed system was successfully tested as a monitor to measure drainage (milliliters) and electrical conductivity (mS/cm) on cucumber crops. Multiple variables (drainage, electrical conductivity, as inputs and irrigation as output) are associated as linguistic variables for decision-making considering a Mandani Fuzzy Logic Controller. Furthermore, captured data is sent to a remote database that is connected to Internet, where researchers can perform various data analysis online for monitoring and decision-making towards mitigation of climate change effects on sensible tropical crops.
KW - COTS components
KW - Decision-making
KW - Fuzzy Logic Controller
KW - Internet of Things
KW - Irrigation scheduling
UR - http://www.scopus.com/inward/record.url?scp=85051388091&partnerID=8YFLogxK
M3 - Contribución a la conferencia
AN - SCOPUS:85051388091
SN - 9781510855373
T3 - Proceedings of the International Astronautical Congress, IAC
SP - 6469
EP - 6473
BT - 68th International Astronautical Congress, IAC 2017
PB - International Astronautical Federation, IAF
Y2 - 25 September 2017 through 29 September 2017
ER -