INTEGRATION OF WEATHER MONITORING-PREDICTION-WATER CONDITIONS IN CORAL CONSERVATION TOURISM AREAS

Diane Tangian; Harson Kapoh; Marson James Budiman; Jongky W. A. Kamagi; Alma K. Pongtuluran; Bernadain D. Polii; Eunike I. Kumaseh; Costantein Imanuel Sarapil; Joneidi Tamarol; Fela Pritian Cera; Audy Sumendap; Himawan Firga Wibisono

doi:10.18623/rvd.v23.n2.3899

Autores

Diane Tangian Manado State Polytechnic https://orcid.org/0000-0003-3347-7895
Harson Kapoh Manado State Polytechnic https://orcid.org/0000-0002-5006-7348
Marson James Budiman Manado State Polytechnic
Jongky W. A. Kamagi Manado State Polytechnic https://orcid.org/0009-0007-2240-0864
Alma K. Pongtuluran Manado State Polytechnic https://orcid.org/0009-0004-0273-5390
Bernadain D. Polii Manado State Polytechnic
Eunike I. Kumaseh North Nusa State Polytechnic https://orcid.org/0000-0002-1190-6452
Costantein Imanuel Sarapil North Nusa State Polytechnic https://orcid.org/0000-0001-5174-696X
Joneidi Tamarol Nusa State Polytechnic
Fela Pritian Cera Coastal and Marine Resources Management Center
Audy Sumendap Coastal and Marine Resources Management Center
Himawan Firga Wibisono Coastal and Marine Resources Management Center

DOI:

https://doi.org/10.18623/rvd.v23.n2.3899

Palavras-chave:

Coastal Weather Prediction, Coral Reef Conservation, Decision Tree, IoT Monitoring, Sustainable Blue Economy

Resumo

The coral monitoring system is designed to monitor coral growth and survival rates, integrated with weather forecasts and real-time information on marine environmental conditions at the Bahoi Likupang coral conservation site in North Minahasa Regency. The goal is to provide tourists and attraction managers with information on favorable weather and marine conditions for coral planting. Predictive analysis was performed using the Decision Tree algorithm, which demonstrated an accuracy of 85%, a precision of 0.83, and a recall of 0.87. These results demonstrate the model's ability to predict rainfall and identify patterns of relationships between environmental parameters. Field trials demonstrated that the IoT system is capable of transmitting real-time data to a web-based dashboard to display sea temperature, humidity, and weather forecasts. The integration of the predictive model and the real-time monitoring system provides an early warning function for potential environmental changes that could threaten coral reef health.

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INTEGRATION OF WEATHER MONITORING-PREDICTION-WATER CONDITIONS IN CORAL CONSERVATION TOURISM AREAS

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