Abstract
In the current research, the authors’ team considers water as a primary resource for the protection of human life and health, but also as a generator of socio-economic growth and healthy environment. Rationally managed water resources are an essential component of urban development, which reduces poverty and morbidity and improves the quality of life. Conventional water system management maximizes existing water flows to fulfill the necessities of society. Another aspect taken into account is the impact of climate change on the sustainability of water resources. On the one hand, such a thought line considers the risk of water scarcity, on the other, the possibility of generating new innovative solutions, dictated by such a challenge. Sustainable water management is essential for ensuring Earth's life and future. The challenges in environmental planning for sustainable water development are stochastic dynamics and hydraulic constraints. This document proposes adaptive intelligent, diligent water resources planning to maintain the urban water environment (AIDWRP). The adaptive smart approach is a subset of artificial intelligence (AI) technology that effectively models environmental planning for sustainable water development. Artificial intelligence modeling improves water efficiency. It transforms information and lays the foundation for a more cost-effective process, improving data-based decision-making. The technology combines digital tools for artificial intelligence and human intellectual skills.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Similar content being viewed by others
References
Ali R, Kuriqi A, Abubaker S, Kisi O (2019) Hydrologic alteration at the upper and middle part of the yangtze river, China: towards sustainable water resource management under increasing water exploitation. Sustainability 11(19):5176
Bazan-Krzywoszańska A, Mrówczyńska M, Tront S (2019) GIS technology, 3D models and mathematical models as a tool for assessing development capabilities of flood risk land to make arrangements of municipal planning documents. J Ecol Eng 20(1)
Bierbaum R, Leonard SA, Rejeski D, Whaley C, Barra RO, Libre C (2020) Novel entities and technologies: environmental benefits and risks. Environ Sci Pol 105:134–143
Cazorla-Montero A, de los Ríos-Carmenado I, Pasten JI (2019) Sustainable development planning: master’s based on a project-based learning approach. Sustainability 11(22):6384
Cernev T, Fenner R (2020) The importance of achieving foundational sustainable development goals in reducing global risk. Futures. 115:102492
Di Baldassarre G, Sivapalan M, Rusca M, Cudennec C, Garcia M, Kreibich H, Konar M, Mondino E, Mård J, Pande S, Sanderson MR (2019) Sociohydrology: scientific challenges in addressing the sustainable development goals. Water Resour Res 55(8):6327–6355
Dimitrov D, Penchev G, Bogomilova E (2017) GIS application for economic assessment of direct disaster losses. In: 2nd international conference on information technology in disaster risk reduction (ITDRR), Sofia, Bulgaria, pp 123–135. https://doi.org/10.1007/978-3-030-18293-9_11. ⟨hal-02280319⟩
Endl A, Tost M, Hitch M, Moser P, Feiel S (2019) Europe’s mining innovation trends and their contribution to the sustainable development goals: blind spots and strong points. Res Policy 10:101440
Fritz A, Haase VG, Rasanen P (Eds) (2019) International handbook of mathematical learning difficulties. Cham Switzerland: Springer
Hameed AA (2019) Smart city planning and sustainable development. In: IOP conference series: materials science and engineering, vol 518, no 2. IOP Publishing, p 022042
Li S, **ao W, Zhao Y, Xu J, Da H, Lv X (2019b) Quantitative analysis of the ecological security pattern for regional sustainable development: case study of Chaohu Basin in eastern China. J Urban Plan. Dev 145(3):04019009
Lin T, Fan W, **ao C, Yao Z, Zhang Z, Zhao R, Pan Y, Chen Y (2019) Energy management and operational planning of an ecological engineering for carbon sequestration in coastal Mariculture environments in China. Sustainability 11(11):3162
Liu D, Zhang G, Li H, Fu Q, Li M, Faiz MA, Ali S, Li T, Khan MI (2019) Projection pursuit evaluation model of a regional surface water environment based on an ameliorative moth-flame optimization algorithm. Ecol Indic 107:105674
Lozano R, Barreiro-Gen M, Lozano FJ, Sammalisto K (2019) Teaching sustainability in European higher education institutions: assessing the connections between competences and pedagogical approaches. Sustainability 11(6):1602
LNCS Homepage, http://www.springer.com/lncs. Accessed 21 Nov 2016
Martinezpaz JM, Pellicermartinez F, Colino J (2014) A probabilistic approach for the socioeconomic assessment of urban river rehabilitation projects Land Use Policy, 36:468–477
Mrówczyńska M, Sztubecka M, Skiba M, Bazan-Krzywoszańska A, Bejga P (2019) The use of artificial intelligence as a tool supporting sustainable development local policy. Sustainability 11(15):4199
Modgil V, Id JM, Narayan C, Kalia M (2020) Comparative analysis of virulence determinants, phylogroups, and antibiotic susceptibility patterns of typical versus atypical enteroaggregative E. coli in India. PloS Negl. Trop Dis 14(11):e0008769. https://doi.org/10.1371/journal.pntd.0008769
Osorio-Cano JD et al (2019) Effects of roughness loss on reef hydrodynamics and coastal protection: approaches in latin America Estuaries Coasts 42:1742–60
Prabakaran K, Nagarajan R, Eswaramoorthi S, Anandkumar A, Merlin Franco S (2019) Environmental significance and geochemical speciation of trace elements in Lower Baram River sediments. Chemosphere 219:933–953. https://doi.org/10.1016/j.chemosphere.2018.11.158
Qian J, Law WR, Wei JW (2019) Knowledge map** in travel website studies: A scientometric review. Scandinavian Journal of Hospitality and Tourism, 19(2):192–209. https://doi.org/10.1080/15022250.2018.1526113
Sachs J, Schmidt-Traub G, Kroll C, Lafortune G, Fuller G (2018) Implementing the goals. SDG index report 2018. Bertelsmann stiftung and sustainable development solutions network, New York
Tsolov G, Vasileva E, Lyubomirova V (2020) Incoming conditions for a green economy building in the Bulgarian regions, International symposium on natural resources management, Pirot, Serbian, ISBN 978-86-7747-624-3, pp 205–210
Velikova E (2021) Sustainable environmental planning of a tourist destination Bulgaria—state and trends. In: Jeon HY (eds) Sustainable development of water and environment. ICSDWE 2021. Environmental science and engineering. Springer, Cham. https://doi.org/10.1007/978-3-030-75278-1_22
Wang W, Chen P, Lee EJ, Mu D (2019) Full-3D seismic tomography for structure of the critical zone. Chapter in earthquake and disaster risk: Decade retrospective of the wenchuan earthquake, 1st Ed. YG Lee (Ed) Higher education press & Springer Nature Singapore. https://doi.org/10.1007/978-981-13-8015-0_8
Acknowledgements
The paper is part of a research project titled HИ-14/2020, “Modernizing regional development in the context of digital transformation,” financed by the University of National and World Economy via the program for Scientific and research activities.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2022 The Author(s), under exclusive license to Springer Nature Switzerland AG
About this paper
Cite this paper
Botseva, D., Tanakov, N., Nikolov, G. (2022). Intelligent Water Resources Management. In: Jeon, HY. (eds) Sustainable Development of Water and Environment. Environmental Science and Engineering. Springer, Cham. https://doi.org/10.1007/978-3-031-07500-1_23
Download citation
DOI: https://doi.org/10.1007/978-3-031-07500-1_23
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-031-07499-8
Online ISBN: 978-3-031-07500-1
eBook Packages: Earth and Environmental ScienceEarth and Environmental Science (R0)