Modelling a Sustainable Smart City Based on Human and User Centred Design

Guoan Wei
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引用次数: 0

Abstract

A smart, sustainable city that employs ICTs (information and communication technologies) improves urban businesses and services’ quality of life, productivity, and competitiveness. A sustainable smart city’s significant challenges are legislation and regulations, financing, technical and infrastructural dimensions. While at the same time providing for the economic, social, environmentally, and cultural needs of the present and future generations. Continuous population and urban development have stepped up creative ways of tackling urbanization, with limited implications supporting smart cities’ environments. This cram aimed to build a user-centred design using a sustainable big data analytics assisted optimization framework (SBDAAO) to step up creative ways of tackling urbanization with limited environmental implications. This research represents a first move to provide perspectives and value in creating intelligent cities to instil sustainability. Simulation analysis has been carried out based on the data collected based on city infrastructure. The experimental results have been executed, and the suggested method achieves an accuracy ratio (98.2%), the efficiency ratio (95.5%), energy consumption (20.1%), average communication delay (17.6%), and renewable power (93.9 %).
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基于以人为本和用户为中心设计的可持续智能城市建模
一个使用ICT(信息和通信技术)的智能、可持续城市可以提高城市企业和服务的生活质量、生产力和竞争力。可持续智慧城市面临的重大挑战包括立法和法规、融资、技术和基础设施方面。同时满足今世后代的经济、社会、环境和文化需求。持续的人口和城市发展加快了应对城市化的创造性方法,对智能城市环境的支持作用有限。该补习班旨在使用可持续的大数据分析辅助优化框架(SBDAAO)建立一个以用户为中心的设计,以加强应对环境影响有限的城市化的创造性方法。这项研究代表着为创建智能城市以灌输可持续性提供视角和价值的第一步。基于基于城市基础设施收集的数据进行了仿真分析。实验结果表明,该方法的准确率为98.2%,效率为95.5%,能耗为20.1%,平均通信时延为17.6%,可再生能源为93.9%。
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来源期刊
Strategic Planning for Energy and the Environment
Strategic Planning for Energy and the Environment Environmental Science-Environmental Science (all)
CiteScore
1.50
自引率
0.00%
发文量
25
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