Tactical Forwarder Planning: A Data-Driven Approach for Timber Forwarding

Munis, Rafaele Almeida; Almeida, Rodrigo Oliveira; Camargo, Diego Aparecido; da Silva, Richardson Barbosa Gomes; Wojciechowski, Jaime; Simões, Danilo

doi:10.3390/f14091782

Forests

2023

DOI: 10.3390/f14091782

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Tactical Forwarder Planning: A Data-Driven Approach for Timber Forwarding

Rafaele Almeida Munis,

Rodrigo Oliveira Almeida,

Diego Aparecido Camargo

et al.

Abstract: Tactical planning in timber harvesting involves aspects related to forest macro-planning and, particularly, the allocation of resources and sequencing of activities, all of which affect the allocation of timber in forest yards and roads and the productivity of forest machines. Data-driven approaches encourage the use of information obtained from data to enhance decision-making efficiency and support the development of short-term strategies. Therefore, our investigation was intended to determine whether a data-… Show more

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Productivity and Costs of Mechanized Skidding operations at Sao Hill Forest Plantation, Tanzania

Temba,

Mauya,

Migunga

2023

Forest Science and Technology

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Productivity and Costs of Mechanized Skidding operations at Sao Hill Forest Plantation, Tanzania

Temba,

Mauya,

Migunga

2023

Forest Science and Technology

View full text Add to dashboard Cite

Cut-to-Length Harvesting Prediction Tool: Machine Learning Model Based on Harvest and Weather Features

Almeida,

da Silva,

Simões

2024

Forests

View full text Add to dashboard Cite

Weather is a significant factor influencing forest health, productivity, and the carbon cycle. However, our understanding of these effects is limited for many regions and ecosystems. Assessing the impact of weather variability on harvester productivity from plantation forests may assist in forest planning through the use of data modeling. We investigated whether weather data combined with timber harvesting attributes could be used to create a high-performance model that could accurately predict harvester productivity in Eucalyptus plantations using machine learning. Furthermore, we aimed to provide an online application to assist forest managers in applying the model. For the modeling, we considered 15 weather and timber harvesting attributes. We considered productivity as the target attribute. We subjected the database to 24 common algorithms in default mode and compared them according to error metrics and accuracy. From the timber harvesting features combined with weather features, the Catboost model can predict the productivity of harvesters in a tuned mode, with a coefficient of determination of 0.70. The use of weather data combined with timber harvesting attributes in the model is an accurate approach for predicting harvester productivity in Eucalyptus plantations, allowing for the creation of an online, free application to assist forest managers.

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Tactical Forwarder Planning: A Data-Driven Approach for Timber Forwarding

Cited by 2 publications

References 56 publications

Productivity and Costs of Mechanized Skidding operations at Sao Hill Forest Plantation, Tanzania

Productivity and Costs of Mechanized Skidding operations at Sao Hill Forest Plantation, Tanzania

Cut-to-Length Harvesting Prediction Tool: Machine Learning Model Based on Harvest and Weather Features

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