Your search keyword '"Damasceno, Flavio Alves"' showing total 6 results

1. Thermal Environment and Behavior Analysis of Confined Cows in a Compost Barn.

Author

Laurindo, Geovani Marques, Ferraz, Gabriel Araújo e Silva, Damasceno, Flavio Alves, Nascimento, Joao Antônio Costa do, Santos, Gabriel Henrique Ribeiro dos, and Ferraz, Patrícia Ferreira Ponciano

Subjects

ANIMAL welfare, BEHAVIORAL assessment, DEW point, ANIMAL behavior, COWS, ANIMAL herds, HUMIDITY

Abstract

Simple Summary: The use of the compost barn system has increased in dairy farms as it provides greater well-being to animals, favoring productivity. Thus, studies related to the thermal environment and behavior are paramount to assessing animal welfare and optimizing management. The objective of this work was to characterize the thermal environment inside a compost barn and to evaluate the standing and lying behavior of cows through images covering the four seasons. Dry bulb temperature, dew point temperature, and relative humidity data were collected every 10 minutes during the analyzed days, calculating the temperature and humidity index (THI). Filming was performed inside the barn, which was analyzed visually and in an automated way to assess the behavior of these animals. For the automated analysis, an algorithm was developed using Artificial Intelligence tools, YOLOv3. It was observed that in the experimental period the highest mean values of THI were observed during the afternoon and autumn. The animals' preference to lie down on the bed for most of the day was verified. Regarding the developed algorithm, it was observed that it could detect cow behavior (lying down or standing), concluding that artificial intelligence was successfully applied and can be recommended for such use. The compost barn system has become popular in recent years for providing greater animal well-being and quality of life, favoring productivity and longevity. With the increase in the use of compost barn in dairy farms, studies related to the thermal environment and behavior are of paramount importance to assess the well-being of animals and improve management, if necessary. This work aimed to characterize the thermal environment inside a compost barn during the four seasons of a year and to evaluate the standing and lying behavior of the cows through images. The experiment was carried out during March (summer), June (autumn), August (winter), and November (spring). Dry bulb temperature (tdb, °C), dew point temperature (tdp, °C), and relative humidity (RH,%) data were collected every 10 minutes during all analyzed days, and the temperature and humidity index (THI) was subsequently calculated. In order to analyze the behavior of the cows, filming of the barn interior was carried out during the evaluated days. Subsequently, these films were analyzed visually, and in an automated way to evaluate the behavior of these animals. For the automated analysis, an algorithm was developed using artificial intelligence tools, YOLOv3, so that the evaluation process could be automated and fast. It was observed that during the experimental period, the highest mean values of THI were observed during the afternoon and the autumn. The animals' preference to lie down on the bed for most of the day was verified. It was observed that the algorithm was able to detect cow behavior (lying down or standing). It can be concluded that the behavior of the cows was defined, and the artificial intelligence was successfully applied and can be recommended for such use. [ABSTRACT FROM AUTHOR]

Published

2022

2. Prediction of black globe humidity index and of the impact of climate changes on acclimatized broiler houses/Predicao do indice de temperatura do globo negro e umidade e do impacto das variacoes climaticas em galpoes avicolas climatizados

Author

Gomes, Raphaela Christina Costa, Yanagi, Jr., Tadayuki, de Lima, Renato Ribeiro, Yanagi, Silvia de Nazare Monteiro, de Carvalho, Valcimar Ferreira, and Damasceno, Flavio Alves

Published

2011

3. Bioclimatic performance of wet coffee processing facilities: conditions for workers and coffee.

Author

Guerra García, Lina Marcela, Hernández, Robinson Osorio, Osorio Saráz, Jairo Alexander, Carlo, Joyce Correna, and Damasceno, Flavio Alves

Subjects

COFFEE processing, HYGROTHERMOELASTICITY, COFFEE, SOLAR radiation, HEAT exchangers, COFFEE beans, COFFEE manufacturing, COFFEE brewing

Abstract

Copyright of Revista Facultad Nacional de Agronomía Medellín is the property of Universidad Nacional de Colombia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

4. Fuzzy system to evaluate performance and the physiological responses of piglets raised in the farrowing house with different solar heating systems.

Author

Damasceno, Flavio Alves, Oliveira, Carlos Eduardo Alves, Abreu, Lucas Henrique Pedrozo, Saraz, Jairo Alexander Osorio, and Ferraz, Patricia Ferreira Ponciano

Subjects

*FUZZY systems, *SOLAR heating, *SWINE farrowing facilities, *THERMAL comfort, *SWINE farms

Abstract

The present work aims to develop a mathematical model, based on fuzzy set theory, for predicting performance and the physiological responses of piglets raised in the farrowing house with different solar heating systems. To do this, a solar heater prototype was constructed using alternative materials and the heating efficiency was compared with a commercial solar heater system. In order to thermally evaluate the heaters, temperature sensors were installed in the inlet and outlet pipes of each floor and thermal reservoir. The fuzzy system was developed and the variables dry air bulb temperature (Tbs) and relative humidity (RH) of the air were defined as inputs. Based on the input variables, the fuzzy system predicts the productive performance (weight gain - WG) and physiological responses (respiratory rate - RR, rectal temperature - RT, and skin temperature - ST) of piglets raised in an environment with solar heating. Based on the results, the fuzzy model was adequate for predicting the physiological responses and productive performance of piglets, presenting low standard deviation and high correlation with the validation data. This model can be used to assist producers in decision making, especially regarding maintaining animal welfare while the thermal environment changes. [ABSTRACT FROM AUTHOR]

Published

2019

5. Study the spatial variability of the noise levels inside two commercial poultry housing with different adiabatic evaporative cooling systems.

Author

Damasceno, Flavio Alves, Ferraz, Gabriel Araújo e Silva, Oliveira, Carlos Eduardo Alves, Osorio-Saraz, Jairo Alexander, and Brandão, Leidimar Freire

Subjects

*POULTRY housing, *ADIABATIC expansion, *BIRD housing, *AVICULTURE, *POULTRY hatcheries, *DECIBEL meters

Abstract

The objective of the present work was to determinate the map the spatial distribution of noise levels inside two commercial poultry housing having different adiabatic evaporative cooling systems, during the life cycle of birds. The noise level was assessed by a digital sound level meter. The data were measured manually at each point in six predetermined sections, totaling 36 points. Spatial distribution maps of noise were generated for the inside of each animal facility, using geostatistics technique through semivariogram analysis and interpolation by ordinary kriging. It concludes that the birds were, in general, subjected to noise levels above 62.0 dBA and during clean and disinfect (decontamination period) the sheds were at approximately 35.0 dBA. The spatial profile of the noise level to the productive environment provide for the attainment of more detailed information about the studied system. [ABSTRACT FROM AUTHOR]

Published

2018

6. Thermal Environment and Behavior Analysis of Confined Cows in a Compost Barn.

Author

Laurindo GM, Ferraz GAES, Damasceno FA, Nascimento JACD, Santos GHRD, and Ferraz PFP

Abstract

The compost barn system has become popular in recent years for providing greater animal well-being and quality of life, favoring productivity and longevity. With the increase in the use of compost barn in dairy farms, studies related to the thermal environment and behavior are of paramount importance to assess the well-being of animals and improve management, if necessary. This work aimed to characterize the thermal environment inside a compost barn during the four seasons of a year and to evaluate the standing and lying behavior of the cows through images. The experiment was carried out during March (summer), June (autumn), August (winter), and November (spring). Dry bulb temperature ( t db , °C), dew point temperature ( t dp , °C), and relative humidity (RH,%) data were collected every 10 minutes during all analyzed days, and the temperature and humidity index (THI) was subsequently calculated. In order to analyze the behavior of the cows, filming of the barn interior was carried out during the evaluated days. Subsequently, these films were analyzed visually, and in an automated way to evaluate the behavior of these animals. For the automated analysis, an algorithm was developed using artificial intelligence tools, YOLOv3, so that the evaluation process could be automated and fast. It was observed that during the experimental period, the highest mean values of THI were observed during the afternoon and the autumn. The animals' preference to lie down on the bed for most of the day was verified. It was observed that the algorithm was able to detect cow behavior (lying down or standing). It can be concluded that the behavior of the cows was defined, and the artificial intelligence was successfully applied and can be recommended for such use.

Published

2022