Developing a framework for integrating blockchain technology into earthquake risk mitigation and disaster management strategies of smart cities

IF 3.5 Q3 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY
A. Habib, Abdulrahman Alnaemi, Maan Habib
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引用次数: 0

Abstract

PurposeEarthquakes pose a significant challenge to human safety and the durability of infrastructure, highlighting the urgent need for innovative disaster management strategies. This study addresses the gap in current earthquake disaster management approaches, which are often related to issues of transparency, centralization and sluggish response times. By exploring the integration of blockchain technology into seismic hazard management, the purpose of the research is to overcome these limitations by offering a novel framework for integrating blockchain technology into earthquake risk mitigation and disaster management strategies of smart cities.Design/methodology/approachThis study develops an innovative approach to address these issues by introducing a blockchain-based seismic monitoring and automated decision support system for earthquake disaster management in smart cities. This research aims to capitalize on the benefits of blockchain technology, specifically its real-time data accessibility, decentralization and automation capabilities, to enhance earthquake disaster management. The methodology employed integrates seismic monitoring data into a blockchain framework, ensuring accurate, reliable and comprehensive information. Additionally, smart contracts are utilized to handle decision-making and enable rapid responses during earthquake disasters, offering an effective alternative to traditional approaches.FindingsThe study results highlight the system’s potential to foster reliability, decentralization and efficiency in earthquake disaster management, promoting enhanced collaboration among stakeholders and facilitating swift actions to minimize human and capital loss. This research lays the foundation for further exploration of blockchain technology’s practical applications in other disaster management contexts and its potential to transform traditional practices.Originality/valueCurrent methodologies, while contributing to the reduction of earthquake-related impacts, are often hindered by limitations such as lack of transparency, centralization and slow response times. In contrast, the adoption of blockchain technology can address these challenges and offer benefits over various aspects, including decentralized control, improved security, real-time data accessibility and enhanced inter-organizational collaboration.
制定将区块链技术纳入智慧城市地震风险缓解和灾害管理战略的框架
目的地震对人类安全和基础设施的耐久性构成重大挑战,凸显了对创新型灾害管理战略的迫切需求。当前的地震灾害管理方法往往与透明度、集中化和响应速度缓慢等问题有关,本研究针对这些差距进行了研究。通过探索将区块链技术整合到地震灾害管理中,本研究旨在提供一个新颖的框架,将区块链技术整合到智慧城市的地震风险缓解和灾害管理策略中,从而克服这些局限性。设计/方法/途径本研究开发了一种创新方法,通过引入基于区块链的地震监测和自动化决策支持系统,解决智慧城市地震灾害管理中的这些问题。本研究旨在利用区块链技术的优势,特别是其实时数据可访问性、去中心化和自动化能力,加强地震灾害管理。所采用的方法将地震监测数据整合到区块链框架中,确保信息准确、可靠和全面。研究结果研究结果强调了该系统在促进地震灾害管理的可靠性、去中心化和效率方面的潜力,促进了利益相关者之间的协作,有利于迅速采取行动,最大限度地减少人员和资金损失。这项研究为进一步探索区块链技术在其他灾害管理环境中的实际应用及其改变传统做法的潜力奠定了基础。原创性/价值当前的方法虽然有助于减少与地震有关的影响,但往往受到缺乏透明度、集中化和响应速度缓慢等局限性的阻碍。相比之下,采用区块链技术可以应对这些挑战,并带来多方面的好处,包括分散控制、提高安全性、实时数据可访问性和加强组织间协作。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Smart and Sustainable Built Environment
Smart and Sustainable Built Environment GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY-
CiteScore
9.20
自引率
8.30%
发文量
53
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