Artificial Intelligence implemented to recognize patterns of sustainable areas by evaluating the database of socioenvironmental safety restrictions
DOI:
https://doi.org/10.33448/rsd-v10i10.18841Keywords:
Sustainable Development; Environmental Management; Landfill; Bio-inspired Computing; Decision Tree; Artificial Intelligence; Decision matrix.Abstract
The several papers recently published, applied to sustainable development, has been considering new methodologies and techniques in identifying the main criteria, in numeric format, that are useful in formulating possible solutions to the solid waste problem. This paper presents the Mathematical and Computational Modeling Process (PM2C), applied in the determination of control variables related to selection of areas destined to the construction of landfills, in order to benefit from new analyzes and values obtained by methods such as AHP (Analytical Hierarchy Process) and GIS (Geographic Information Systems). The main objective of this paper is the use of Artificial Intelligence (AI), through a Decision Tree strategy, as a selective method and optimal solutions in choosing the best area dedicated to the construction of landfills, with the creation and analysis of new values applied to scenarios defined in the paper of Andrade e Barbosa (2015). The results, expressed in analytical and graphical forms, show the individual values for each criterion and new scenarios involved in the phenomena. This paper highlights the importance of incorporating new conditions and criteria to propose a new decision-making rule, simultaneously, associating qualitative and quantitative characteristics, related to social and economic effects, applied to the environment management system. Based on these principles, it was possible to simulate new scenarios that demonstrate, with very high precision, the best values of useful criteria for decision-making in the selection of the optimal area for implementation of a landfill.
References
ABNT, N. 13.896 (1997) Aterros de resíduos não perigosos–Critérios para projeto, implantação e operação. Rio de Janeiro. Retrieved from https://www.abntcatalogo.com.br/norma.aspx?ID=4829.
Andrade, A. J. B., & Barbosa, N. P. P. (2015). Combinação do método AHP e SIG na seleção de áreas com potenciais para a instalação de aterro sanitário: caso da ilha do Fogo, na República de Cabo Verde. Revista de Geografia (UFPE), 32(2), 248-266.
Brito, D. A. C., Seabra, L. C., Lima, P. D. M., & Souza, C. M. N. (2020). MANEJO DE RESÍDUOS SÓLIDOS E DE ÁGUAS PLUVIAIS: O (DES) CONTROLE SOCIAL EM BELÉM, PARÁ. Revista Eletrônica de Gestão e Tecnologias Ambientais, 8(2), 103-118.
Chalmers, A. (1999). What is This Thing Called Science? London: Open University Press.
Crump, T. (2002). A Brief History of Science, as Seen Through the Development of Scientific Instruments. London: Robinson.
Costa, D. C. L., de Oliveira Costa, H. A., Castro, A. P. S., Cruz, E. C., Neto, J. L. A., & da Cruz, B. C. C. (2020). As dimensões das Modelagens Matemática e Computacional prescrevidas à Gestão Ambiental. Research, Society and Development, 9(10), e6939109013-e6939109013. DOI: 10.33448/rsd-v9i10.9013. Retrieved from: https://rsdjournal.org/index.php/rsd/article/view/9013.
Costa, D. C., Nunes, M. V., Vieira, J. P., & Bezerra, U. H. (2016). Decision tree-based security dispatch application in integrated electric power and natural-gas networks. Electric Power Systems Research, 141, 442-449.
de Oliveira Costa, H. A., Costa, D. C. L., & de Meneses, L. A. (2021). Interdisciplinarity Applied to the Optimized Dispatch of Integrated Electricity and Natural Gas Networks using the Genetic Algorithm. Research, Society and Development, 10(2), e42110212641-e42110212641. DOI: 10.33448/rsd-v10i2.12641. Retrieved from: https://rsdjournal.org/index.php/rsd/article/view/1264
Crepaldi, P. G., Avila, R. N. P., de Oliveira Paulo, J. P. M., Rodrigues, R., & Martins, R. L. (2011). Um estudo sobre a árvore de decisão e sua importância na habilidade de aprendizado. Retrieved from: https://www.inesul.edu.br/revista/arquivos/arq-idvol_15_1320100263.pdf
Freddo, A. R., Nishiyama, M. F., Zanuzo, K., & Koehnlein, E. (2019). Árvores de Decisão como Método de Mineração de Dados: Análise de Prontuários de uma Clínica Escola de Nutrição. Revista Da Associação Brasileira De Nutrição-RASBRAN, 10(2), 31-37.
De Felice, F., Crocetti, D., Parisi, M., Maiuri, V., Moscarelli, E., Caiazzo, R., ... & Tombolini, V. (2020). Decision tree algorithm in locally advanced rectal cancer: an example of over-interpretation and misuse of a machine learning approach. Journal of cancer research and clinical oncology, 146(3), 761-765.
Garcia, S. C. (2003). O uso de árvores de decisão na descoberta de conhecimento na área da saúde. Rio Grande do Sul: Universidade Federal do Rio Grande do Sul. Retrieved from: http://hdl.handle.net/10183/4703
Hasan, R., Palaniappan, S., Raziff, A. R. A., Mahmood, S., & Sarker, K. U. (2018, August). Student academic performance prediction by using decision tree algorithm. In 2018 4th international conference on computer and information sciences (ICCOINS) (pp. 1-5). IEEE.
Yazdi, S., Vosoogh, A., & Bazargan, A. (2018). The Application of Membrane Bioreactors (MBR) for the Removal of Organic Matter, Nutrients, and Heavy Metals from Landfill Leachate.
Johnson, K. W., Torres Soto, J., Glicksberg, B. S., Shameer, K., Miotto, R., Ali, M., Ashley, E., & Dudley, J. T. (2018). Artificial Intelligence in Cardiology. Journal of the American College of Cardiology, 71(23), 2668-2679.
Khorram, A., Yousefi, M., Alavi, S. A., & Farsi, J. (2015). Convenient landfill site selection by using fuzzy logic and geographic information systems: a case study in Bardaskan, East of Iran. Health Scope, 4(1) 1-10.
Krestinskaya, O., & James, A. P. (2016, September). Bioinspired memory model for HTM face recognition. In 2016 International Conference on Advances in Computing, Communications and Informatics (ICACCI) (pp. 1528-1532). IEEE.
Kumar, A., Sah, B., Singh, A. R., Deng, Y., He, X., Kumar, P., & Bansal, R. C. (2017). A review of multi criteria decision making (MCDM) towards sustainable renewable energy development. Renewable and Sustainable Energy Reviews, 69, 596-609.
Lu, H., Li, Y., Chen, M., Kim, H., & Serikawa, S. (2018). Brain intelligence: go beyond artificial intelligence. Mobile Networks and Applications, 23(2), 368-375.
Magalhães, D. F. V., da Cunha Vieira, M. I. M., & de Souza Norberto, A. (2020). Dimensionamento de geossintético para reforço de aterro sobre solo mole. Research, Society and Development, 9(8), e355985323-e355985323.
Martins, M. E. G. (2013). Desvio padrão amostral. Revista de ciência elementar, 1(1) 022
Mayer, R. E. (2019). Computer games in education. Annual review of psychology, 70, 531-549.
Mu, Y., Liu, X., & Wang, L. (2018). A Pearson’s correlation coefficient based decision tree and its parallel implementation. Information Sciences, 435, 40-58.
Moreira, L. L., Schwamback, D., Corrêa, N. R., & COELHO, A. L. N. (2016). SIG Aplicado à seleção de áreas potenciais para instalação de aterro sanitário no município de serra–ES. Geosciences= Geociências, 35(4), 531-541.
Pereira, A. S., Shitsuka, D. M., Parreira, F. J. & Shitsuka, R. (2018). Metodologia da pesquisa científica.[e-book], 1. Santa Maria. UAB/NTE/UFSM. Retrieved from: https://repositorio.ufsm.br/bitstream/handle/1/15824/Lic_Computacao_Metodologia-Pesquisa-Cientifica.pdf?sequence=1
Pinheiro, M. M. F., Osco, L. P., Mendes, T. S. G. & Ramos, A. P. M. (2019). Caracterização das áreas restritas para implantação de aterro sanitário na região do Pontal do Paranapanema - SP. In: Anais do XIX Simpósio Brasileiro de Sensoriamento Remoto, Santos. São José dos Campos, INPE, 2019. Retrieved from: https://proceedings.science/sbsr-2019/papers/caracterizacao-das-areas-restritas-para-implantacao-de-aterro-sanitario-na-regiao-do-pontal-do-paranapanema---sp?lang=en.
Portella, M. O., & Ribeiro, J. C. J. (2014). Aterros sanitários: Aspectos gerais e destino final dos resíduos. Revista Direito Ambiental e Sociedade, 4(1), 115-134.
Priya, K.S., Burman, I., Tarafdar, A., & Sinha, A. (2018). Impact of Ammonia Nitrogen on COD Removal Efficiency in Anaerobic Hybrid Membrane Bioreactor Treating Synthetic Leachate. International Journal of Environmental Research, 13, 59-65.
Paula, J. A. A. de, Faria, Érica V. de, Lima, A. C. P., Vieira Neto, J. L., & Santos, K. G. dos. (2020). Computational simulation of soybean particles flow in a hopper using computational fluid dynamics (CFD) and discrete elements method (DEM). Research, Society and Development, 9(8), e448985463. https://doi.org/10.33448/rsd-v9i8.5463
Ramadhan, I., Sukarno, P., & Nugroho, M. A. (2020, June). Comparative Analysis of K-Nearest Neighbor and Decision Tree in Detecting Distributed Denial of Service. In 2020 8th International Conference on Information and Communication Technology (ICoICT) (pp. 1-4). IEEE.
RAPIDMINER 9. Operator Reference Manual. All rights reserved. RapidMiner GmbH. www.rapidminer.com November 9, 2020.
Sathiyanarayanan, P., Pavithra, S., Saranya, M. S., & Makeswari, M. (2019, March). Identification of breast cancer using the decision tree algorithm. In 2019 IEEE International Conference on System, Computation, Automation and Networking (ICSCAN) (pp. 1-6). IEEE.
Şener, Ş., Şener, E., Nas, B., & Karagüzel, R. (2010). Combining AHP with GIS for landfill site selection: a case study in the Lake Beyşehir catchment area (Konya, Turkey). Waste management, 30(11), 2037-2046.
Souto, G. D. (2009). Lixiviado de aterros sanitários brasileiros: estudo de remoção do nitrogênio amoniacal por processo de arraste com ar (stripping) (Doctoral dissertation, Universidade de São Paulo).
Sodré, G. R. C., de Freitas, S. J. N., Rodrigues, J. B., Igawa, T. K., de Sousa Amorim, I. L., & Cabral, A. C. L. C. (2020). Avaliação sustentável para instalação de aterro sanitário em uma cidade da Amazônia oriental. Nature and Conservation, 13(3), 112-121.
Swacha, J., Maskeliūnas, R., Damaševičius, R., Kulikajevas, A., Blažauskas, T., Muszyńska, K., ... & Kowalska, M. (2021). Introducing Sustainable Development Topics into Computer Science Education: Design and Evaluation of the Eco JSity Game. Sustainability, 13(8), 4244.
Szczepanski, M. (2019). Economic impacts of artificial intelligence (AI). European Parliamentary Research Service (PE 637.967).
Vaishya, R., Javaid, M., Khan, I. H., & Haleem, A. (2020). Artificial Intelligence (AI) applications for COVID-19 pandemic. Diabetes & Metabolic Syndrome: Clinical Research & Reviews, 14(4), 337-339.
Yang, X., Zhou, T., Zwang, T. J., Hong, G., Zhao, Y., Viveros, R. D., ... & Lieber, C. M. (2019). Bioinspired neuron-like electronics. Nature materials, 18(5), 510-517.
Yoo, S. H., Geng, H., Chiu, T. L., Yu, S. K., Cho, D. C., Heo, J., ... & Lee, H. (2020). Deep learning-based decision-tree classifier for COVID-19 diagnosis from chest X-ray imaging. Frontiers in medicine, 7, 427.
Wu, Y., Zhou, J., Hu, Y., Li, L., & Sun, X. (2018). A TODIM-based investment decision framework for commercial distributed PV projects under the energy performance contracting (EPC) business model: A case in East-Central China. Energies, 11(5), 1210.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2021 Julio Leite Azancort Neto; Arleson Lui Silva Gonçalves; Brennus Caio Carvalho da Cruz; Larissa Luz Gomes; Denis Carlos Lima Costa
This work is licensed under a Creative Commons Attribution 4.0 International License.
Authors who publish with this journal agree to the following terms:
1) Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons Attribution License that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.
2) Authors are able to enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgement of its initial publication in this journal.
3) Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work.