An Object Driven Decision Model for Quantifying the Virtual Merkus Pine Tree's Environment Contribution
A tree planted in the wild contributes significantly to nature and its surroundings. Key benefits include biomass production and the strengthening of soil contours. Biomass itself is a tangible output of living organisms, offering both renewable fuel potential and notable economic value. Additional...
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| Language: | English |
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Ital Publication
2025-06-01
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| Series: | HighTech and Innovation Journal |
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| Online Access: | https://hightechjournal.org/index.php/HIJ/article/view/976 |
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| author | Ditdit Nugeraha Utama Bakti Amirul Jabar |
| author_facet | Ditdit Nugeraha Utama Bakti Amirul Jabar |
| author_sort | Ditdit Nugeraha Utama |
| collection | DOAJ |
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A tree planted in the wild contributes significantly to nature and its surroundings. Key benefits include biomass production and the strengthening of soil contours. Biomass itself is a tangible output of living organisms, offering both renewable fuel potential and notable economic value. Additionally, the presence of a tree has a considerable effect on soil shear strength, which plays a crucial role in supporting reforestation efforts in deforested areas. The research aims to construct a computational decision model of a virtual Merkus Pine tree to estimate biomass production and evaluate its impact on soil reinforcement as part of the tree's environmental contributions. The model was constructed via two types of methods: an object-oriented approach for technical design and functional-structural plant modeling (FSPM) as a core method to construct a 3D virtual pine tree model. The model is a novel computational decision model operated to visually simulate the growth and development of Merkus Pine, estimate biomass yield, and calculate annual soil shear strength due to the tree’s presence. Simulation results indicate that a single Merkus Pine tree can produce up to 242.27 kg of biomass and enhance soil shear strength by approximately 0.88 N by the end of 15 years.
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| format | Article |
| id | doaj-art-70d18d92575c4f0ca64e57adda922792 |
| institution | Kabale University |
| issn | 2723-9535 |
| language | English |
| publishDate | 2025-06-01 |
| publisher | Ital Publication |
| record_format | Article |
| series | HighTech and Innovation Journal |
| spelling | doaj-art-70d18d92575c4f0ca64e57adda9227922025-08-20T03:59:08ZengItal PublicationHighTech and Innovation Journal2723-95352025-06-016210.28991/HIJ-2025-06-02-019An Object Driven Decision Model for Quantifying the Virtual Merkus Pine Tree's Environment ContributionDitdit Nugeraha Utama0https://orcid.org/0000-0002-9899-0908Bakti Amirul Jabar1Computer Science Department, BINUS Graduate Program–Master of Computer Science, Bina Nusantara University, Jakarta, 11480Computer Science Department, School of Computer Science, Bina Nusantara University, Jakarta, 11480 A tree planted in the wild contributes significantly to nature and its surroundings. Key benefits include biomass production and the strengthening of soil contours. Biomass itself is a tangible output of living organisms, offering both renewable fuel potential and notable economic value. Additionally, the presence of a tree has a considerable effect on soil shear strength, which plays a crucial role in supporting reforestation efforts in deforested areas. The research aims to construct a computational decision model of a virtual Merkus Pine tree to estimate biomass production and evaluate its impact on soil reinforcement as part of the tree's environmental contributions. The model was constructed via two types of methods: an object-oriented approach for technical design and functional-structural plant modeling (FSPM) as a core method to construct a 3D virtual pine tree model. The model is a novel computational decision model operated to visually simulate the growth and development of Merkus Pine, estimate biomass yield, and calculate annual soil shear strength due to the tree’s presence. Simulation results indicate that a single Merkus Pine tree can produce up to 242.27 kg of biomass and enhance soil shear strength by approximately 0.88 N by the end of 15 years. https://hightechjournal.org/index.php/HIJ/article/view/976BiomassSoil Shear StrengthVirtual Merkus Pine TreeEnvironmental ContributionFunctional-Structural Plant ModelingObject-Oriented |
| spellingShingle | Ditdit Nugeraha Utama Bakti Amirul Jabar An Object Driven Decision Model for Quantifying the Virtual Merkus Pine Tree's Environment Contribution HighTech and Innovation Journal Biomass Soil Shear Strength Virtual Merkus Pine Tree Environmental Contribution Functional-Structural Plant Modeling Object-Oriented |
| title | An Object Driven Decision Model for Quantifying the Virtual Merkus Pine Tree's Environment Contribution |
| title_full | An Object Driven Decision Model for Quantifying the Virtual Merkus Pine Tree's Environment Contribution |
| title_fullStr | An Object Driven Decision Model for Quantifying the Virtual Merkus Pine Tree's Environment Contribution |
| title_full_unstemmed | An Object Driven Decision Model for Quantifying the Virtual Merkus Pine Tree's Environment Contribution |
| title_short | An Object Driven Decision Model for Quantifying the Virtual Merkus Pine Tree's Environment Contribution |
| title_sort | object driven decision model for quantifying the virtual merkus pine tree s environment contribution |
| topic | Biomass Soil Shear Strength Virtual Merkus Pine Tree Environmental Contribution Functional-Structural Plant Modeling Object-Oriented |
| url | https://hightechjournal.org/index.php/HIJ/article/view/976 |
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