Abstract
As a level of smart city construction, ecological environment plays an important role. This article takes the campus river pollution control in the construction of a smart city as an example to study the ecological design strategy. It aims to discover the limitations of current river monitoring and governance methods by analyzing the current situation and governance methods of the Xunsi River, and propose a future smart city river water quality monitoring system, combining blockchain technology with the monitoring system, and using blockchain Technology makes monitoring data open and transparent, and strengthens the supervision of river ecological protection by the government and other relevant departments. At the same time, with the help of data visualization design, people’s attention to water resources and environmental protection are enhanced, and people are encouraged to actively participate in the action of protecting rivers, so as to jointly build green and harmonious communities and promote the sustainable development of smart cities in the future.
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References
Han, H., Yan, G., Fan, W.: Planning scheme for comprehensive water environment management in the Xunsi River Basin in Wuhan City. Urban Roads Bridges Flood Control (07), 133–135+157+17 (2021)
Zhiqing, Z., Nuoya, Y.: Research on the co-governance strategy of water cities in the Xunsi River area of Wuhan. Urban Archit. 18(21), 66–68 (2021)
Xinpeng, W., Xinggang, F.: Real-time and efficient new water quality monitoring system based on Internet of Things technology. Small Medium-Sized Enterprise Manage. Technol. (Late Issue) 12, 194–196 (2020)
Peng, H., Zhou, X.: Research on a new water quality monitoring system based on the Internet of Things. Equip. Manage. Mainten. 22, 98–99 (2021)
Xin, S., Qingqi, P., Xuefeng, L.: Overview of blockchain technology. J. Network Inf. Secur. 2(11), 11–20 (2016)
Sa, H., Yi, C., Guangcai, F.: Application research on tracking and tracing of ship pollutants based on blockchain technology. China Maritime Aff. 02, 57–59 (2021)
Dingyi, S., Mingming, R., Xinhua, W.: Application of blockchain technology in environmental protection. Sci. Technol. Innov. 22, 57–58 (2019)
Yuntian, Z.: Design of village sewage treatment monitoring system based on blockchain. Electron. Technol. Software Eng. 21, 159–163 (2021)
Hao, Y., Nianzhu, Z., Hang, X.: Research on meteorological data sharing scheme based on blockchain technology. Mod. Agric. Sci. Technol. 11, 205–207 (2020)
Jing, C., Jun, L., Wei, Z.: The change trend and evaluation of the water environment quality of the Tounsi River. In: Proceedings of the Tenth Annual Conference of China Association for Science and Technology (2), pp. 1038–1046 (2008)
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Ma, Y., Lu, M., Zheng, Y. (2022). Research on Ecological Design Strategies of Smart City Refined Governance--Taking Xunsi River as an Example. In: Rau, PL.P. (eds) Cross-Cultural Design. Product and Service Design, Mobility and Automotive Design, Cities, Urban Areas, and Intelligent Environments Design. HCII 2022. Lecture Notes in Computer Science, vol 13314. Springer, Cham. https://doi.org/10.1007/978-3-031-06053-3_28
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DOI: https://doi.org/10.1007/978-3-031-06053-3_28
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