Julio Barón-Velandia scite author profile

Julio Barón-Velandia

5Publications

6Citation Statements Received

190Citation Statements Given

How they've been cited

How they cite others

190

Affiliations

District University of Bogotá

Publications

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A Systematic Review of Greenhouse Humidity Prediction and Control Models Using Fuzzy Inference Systems

Vanegas-Ayala

Barón-Velandia

Leal-Lara

2022

Advances in Human-Computer Interaction

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Cultivating in greenhouses constitutes a fundamental tool for the development of high-quality crops with a high degree of profitability. Prediction and control models guarantee the correct management of environment variables, for which fuzzy inference systems have been successfully implemented. The purpose of this review is determining the various relationships in fuzzy inference systems currently used for the modelling, prediction, and control of humidity in greenhouses and how they have changed over time to be able to develop more robust and easier to understand models. The methodology follows the PRISMA work guide. A total of 93 investigations in 4 academic databases were reviewed; their bibliometric aspects, which contribute to the objective of the investigation, were extracted and analysed. It was finally concluded that the development of models based in Mamdani fuzzy inference systems, integrated with optimization and fuzzy clustering techniques, and following strategies such as model-based predictive control guarantee high levels of precision and interpretability.

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Predictive Model of Humidity in Greenhouses through Fuzzy Inference Systems Applying Optimization Methods

Vanegas-Ayala

Barón-Velandia

Leal-Lara

2023

Advances in Fuzzy Systems

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Establishing the indoor and outdoor humidity values in a greenhouse allows us to describe the crop yield during its entire developmental cycle. This study seeks to develop a predictive model of indoor relative humidity values in a greenhouse with high accuracy and interpretability through the use of optimized fuzzy inference systems, in order to offer greenhouse users a clear and simple description of their behaviour. The three-phase methodology applied made use of descriptive statistics techniques, correlation analysis, and prototyping paradigm for the iterative and incremental development of the predictive model, validated through error measurement. The research resulted in six models which define the behaviour of humidity as a result of temperature, CO2, and soil moisture, with percentages of effectiveness above 90%. The implementation of a Mamdani-type fuzzy inference system, optimized by a hybrid method combining genetic and interior point algorithms, allowed to predict the relative humidity in greenhouses with high interpretability and precision, with an effectiveness percentage of 90.97% and MSE (mean square error) of 8.2e − 3.

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Algunas perspectivas históricas en la evolución del perfil del ingeniero

Gallego¹,

Barón-Velandia²

2013

Rev. Cient.

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Greenhouse Humidity Prediction and Control Models by Using Fuzzy Inference Systems

Vanegas-Ayala¹,

Barón-Velandia²,

Leal-Lara³

2022

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Determination of Environmental Humidity and Temperature Prediction in Agriculture Using Mamdani Inference Systems

Barón-Velandia

Quintana

Ayala

2022

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