Collaborative Governance: Blockchain-Based Federated Learning for Construction Safety Service

IF 4.6 3区管理学 Q1 BUSINESS

IEEE Transactions on Engineering Management Pub Date : 2025-03-17 DOI:10.1109/TEM.2025.3552184

Xing Pan;Lieyun Ding;Botao Zhong;Luoxin Shen;Yuhang Wang

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引用次数: 0

Abstract

Deep learning (DL) models are increasingly used to identify unsafe activities for the construction safety service (CSS). However, two typical issues threaten DL training process performance: poor security and privacy in data sharing. To address these problems, a blockchain-based federated learning (BCFL) framework is proposed from a collaborative governance perspective to obtain optimistic DL models for CSS. Two special works of this BCFL framework are that 1) it develops the federated learning empowered privacy-preserving data sharing with the principle of sharing data model weights instead of raw data (especially for one DL application for CSS, the Fed-YOLOv4 model for workers’ unsafe behavior identification task is developed) and 2) it explores two blockchain-based secure model sharing strategies that involve blockchain–interplanetary file system combination and model training contribution computing. Then, the smart contracts are further developed with the strategies above to streamline the workflow of federated DL model training. Finally, we apply the proposed framework to the practical subway project. The results demonstrate that the proposed framework can improve the DL model training and acquire global DL models for CSS with good accuracy. Our findings indicate that great data security and privacy ensured by introducing blockchain and federated learning can optimize data sharing and then DL models can be improved. Moreover, this study provides managers with a collaborative governance perspective on how DL models can be improved and further applied to CSS. This enables managers to quickly understand project safety performance and make timely managerial decisions for construction management.

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协同治理：基于区块链的建筑安全服务联邦学习

深度学习（DL）模型越来越多地用于识别建筑安全服务（CSS）的不安全活动。然而，两个典型的问题威胁着深度学习训练过程的性能：数据共享中的安全性和隐私性差。为了解决这些问题，从协作治理的角度提出了基于区块链的联邦学习（BCFL）框架，以获得CSS的乐观深度学习模型。该BCFL框架的两个特别之处在于：1)它开发了联邦学习授权的隐私保护数据共享，其原则是共享数据模型权重而不是原始数据（特别是针对CSS的一个DL应用程序）；开发了用于工人不安全行为识别任务的Fed-YOLOv4模型);2)探索了两种基于区块链的安全模型共享策略，涉及区块链-星际文件系统组合和模型训练贡献计算。然后，利用上述策略进一步开发智能合约，以简化联邦DL模型训练的工作流程。最后，将本文提出的框架应用到实际的地铁工程中。结果表明，该框架能够提高深度学习模型的训练效率，并能较好地获取CSS的全局深度学习模型。我们的研究结果表明，引入区块链和联邦学习可以保证数据的安全性和隐私性，从而优化数据共享，从而改进深度学习模型。此外，本研究为管理者提供了一个协作治理的视角，即如何改进DL模型并进一步应用于CSS。这使管理人员能够快速了解项目安全绩效，并及时为施工管理做出管理决策。

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

IEEE Transactions on Engineering Management 管理科学-工程：工业

CiteScore

10.30

自引率

19.00%

发文量

604

审稿时长

5.3 months

期刊介绍： Management of technical functions such as research, development, and engineering in industry, government, university, and other settings. Emphasis is on studies carried on within an organization to help in decision making or policy formation for RD&E.