FarmSync: Ecosystem for Environmental Monitoring of Barns in Agribusiness DOI Creative Commons
Guilherme Pulizzi Costa, Geovane Yuji Aparecido Sakata, Luiz Fernando Pinto de Oliveira

et al.

AgriEngineering, Journal Year: 2025, Volume and Issue: 7(4), P. 124 - 124

Published: April 17, 2025

In the current era of agricultural management practices, known as 5.0, optimal indoor environments are associated with comfortable temperatures, regulated humidity, and good air quality—essential variables to improve yields. Given this scenario, there is a need for innovative ecosystems that automate environmental monitoring in an affordable scalable way. This paper presents scope development validation IoT-based ecosystem designed monitor control conditions barns. The objective present cost-effective easily accessible system barn buildings storage areas, promoting welfare animals, humans, crops, contributing sustainable industry. integrates wireless sensors, predictive algorithms, web interface cloud infrastructure optimize temperature humidity. A proof-of-concept assessment was performed determine whether modular architecture offers scalability, while responsive ensures cross-device accessibility. results show data accuracy above 95%, prediction efficiency 96%, increases production solution demonstrates economic operational advantages over existing technologies, sustainability automation practices hangars barns, alignment United Nations’ Sustainable Development Goals (SDGs).

Language: Английский

FarmSync: Ecosystem for Environmental Monitoring of Barns in Agribusiness DOI Creative Commons
Guilherme Pulizzi Costa, Geovane Yuji Aparecido Sakata, Luiz Fernando Pinto de Oliveira

et al.

AgriEngineering, Journal Year: 2025, Volume and Issue: 7(4), P. 124 - 124

Published: April 17, 2025

In the current era of agricultural management practices, known as 5.0, optimal indoor environments are associated with comfortable temperatures, regulated humidity, and good air quality—essential variables to improve yields. Given this scenario, there is a need for innovative ecosystems that automate environmental monitoring in an affordable scalable way. This paper presents scope development validation IoT-based ecosystem designed monitor control conditions barns. The objective present cost-effective easily accessible system barn buildings storage areas, promoting welfare animals, humans, crops, contributing sustainable industry. integrates wireless sensors, predictive algorithms, web interface cloud infrastructure optimize temperature humidity. A proof-of-concept assessment was performed determine whether modular architecture offers scalability, while responsive ensures cross-device accessibility. results show data accuracy above 95%, prediction efficiency 96%, increases production solution demonstrates economic operational advantages over existing technologies, sustainability automation practices hangars barns, alignment United Nations’ Sustainable Development Goals (SDGs).

Language: Английский

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