Study of the impact of emerging technologies on the conservation of protective forests through the plithogenic hy-pothesis and neutrosophic stance detection
This paper investigates the efficacy of emerging technologies in protective forest conservation— artificial intelligence, drones, remote sensing, and blockchain—and whether such tools foster threat detection and enhanced biodiversity and human interaction. As deforestation and climate change continu...
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| Format: | Article |
| Language: | English |
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University of New Mexico
2025-05-01
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| Series: | Neutrosophic Sets and Systems |
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| Online Access: | https://fs.unm.edu/NSS/34.%20StudyimpactPlithogenicHypothesis.pdf |
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| author | Jorge Isaac Avilés Monroy Pedro Manuel Garcia Arias Edgar Paul Cun Laines David Fernando Zorrilla Baquero Víctor Iván Espinoza de los Monteros Enríquez |
| author_facet | Jorge Isaac Avilés Monroy Pedro Manuel Garcia Arias Edgar Paul Cun Laines David Fernando Zorrilla Baquero Víctor Iván Espinoza de los Monteros Enríquez |
| author_sort | Jorge Isaac Avilés Monroy |
| collection | DOAJ |
| description | This paper investigates the efficacy of emerging technologies in protective forest conservation— artificial intelligence, drones, remote sensing, and blockchain—and whether such tools foster threat detection and enhanced biodiversity and human interaction. As deforestation and climate change continue to plague the planet, protected areas become more critical, and although successful conservation efforts exist, traditional tools fail to adequately provide the granularity and scalability required for nuanced action such as illegal logging or forest fires. The emerging abilities of these innovations have been published in scientific literature. However, there exists a translational gap in a systematic determination of their efficacy since levels of uncertainty and constraints are discussed upon implementation across varying ecological and socioeconomic spectrums. Therefore, this paper seeks to fill the void utilizing the plithogenic hypothesis—a neutrosophic application of modeling uncertainty through the probability of truth, indeterminacy, and falsity. 125 articles were examined for feasibility with the use of the Consensus Meter. Results denote a 48% probability of actualness that such technologies do work—74.3% that they increasingly foster early detection of threats, 72% that they help monitor biodiversity; yet 32% indeterminacy suggests challenges to success including expense and absent infrastructure. This is a unique form of assessment of efficacy in uncertain, complicated environments. Ultimately, implementation suggestions can include need vs. idea vs. environmental implementation and feasibility of financing and community support/inclusivity to realize what would theoretically contribute to forest conservation and policy proposals that use emerging technologies yet acknowledge ecological and socioeconomic realities. |
| format | Article |
| id | doaj-art-0bf435f381ce4df6bbd41e023b88ef8a |
| institution | Kabale University |
| issn | 2331-6055 2331-608X |
| language | English |
| publishDate | 2025-05-01 |
| publisher | University of New Mexico |
| record_format | Article |
| series | Neutrosophic Sets and Systems |
| spelling | doaj-art-0bf435f381ce4df6bbd41e023b88ef8a2025-08-24T17:48:57ZengUniversity of New MexicoNeutrosophic Sets and Systems2331-60552331-608X2025-05-0184424437Study of the impact of emerging technologies on the conservation of protective forests through the plithogenic hy-pothesis and neutrosophic stance detectionJorge Isaac Avilés MonroyPedro Manuel Garcia AriasEdgar Paul Cun LainesDavid Fernando Zorrilla BaqueroVíctor Iván Espinoza de los Monteros EnríquezThis paper investigates the efficacy of emerging technologies in protective forest conservation— artificial intelligence, drones, remote sensing, and blockchain—and whether such tools foster threat detection and enhanced biodiversity and human interaction. As deforestation and climate change continue to plague the planet, protected areas become more critical, and although successful conservation efforts exist, traditional tools fail to adequately provide the granularity and scalability required for nuanced action such as illegal logging or forest fires. The emerging abilities of these innovations have been published in scientific literature. However, there exists a translational gap in a systematic determination of their efficacy since levels of uncertainty and constraints are discussed upon implementation across varying ecological and socioeconomic spectrums. Therefore, this paper seeks to fill the void utilizing the plithogenic hypothesis—a neutrosophic application of modeling uncertainty through the probability of truth, indeterminacy, and falsity. 125 articles were examined for feasibility with the use of the Consensus Meter. Results denote a 48% probability of actualness that such technologies do work—74.3% that they increasingly foster early detection of threats, 72% that they help monitor biodiversity; yet 32% indeterminacy suggests challenges to success including expense and absent infrastructure. This is a unique form of assessment of efficacy in uncertain, complicated environments. Ultimately, implementation suggestions can include need vs. idea vs. environmental implementation and feasibility of financing and community support/inclusivity to realize what would theoretically contribute to forest conservation and policy proposals that use emerging technologies yet acknowledge ecological and socioeconomic realities. https://fs.unm.edu/NSS/34.%20StudyimpactPlithogenicHypothesis.pdfplithogenic hypothesisneutrosophic stance detectionemerging technologiesforest conservationthreat detectionbiodiversity monitoringcommunity participationsustainability |
| spellingShingle | Jorge Isaac Avilés Monroy Pedro Manuel Garcia Arias Edgar Paul Cun Laines David Fernando Zorrilla Baquero Víctor Iván Espinoza de los Monteros Enríquez Study of the impact of emerging technologies on the conservation of protective forests through the plithogenic hy-pothesis and neutrosophic stance detection Neutrosophic Sets and Systems plithogenic hypothesis neutrosophic stance detection emerging technologies forest conservation threat detection biodiversity monitoring community participation sustainability |
| title | Study of the impact of emerging technologies on the conservation of protective forests through the plithogenic hy-pothesis and neutrosophic stance detection |
| title_full | Study of the impact of emerging technologies on the conservation of protective forests through the plithogenic hy-pothesis and neutrosophic stance detection |
| title_fullStr | Study of the impact of emerging technologies on the conservation of protective forests through the plithogenic hy-pothesis and neutrosophic stance detection |
| title_full_unstemmed | Study of the impact of emerging technologies on the conservation of protective forests through the plithogenic hy-pothesis and neutrosophic stance detection |
| title_short | Study of the impact of emerging technologies on the conservation of protective forests through the plithogenic hy-pothesis and neutrosophic stance detection |
| title_sort | study of the impact of emerging technologies on the conservation of protective forests through the plithogenic hy pothesis and neutrosophic stance detection |
| topic | plithogenic hypothesis neutrosophic stance detection emerging technologies forest conservation threat detection biodiversity monitoring community participation sustainability |
| url | https://fs.unm.edu/NSS/34.%20StudyimpactPlithogenicHypothesis.pdf |
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