Model Complexity Reduction for ZKML Healthcare Applications: Privacy Protection and Inference Optimization for ZKML Applications-A Reference Implementation With Synthetic ICHOM Dataset.
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引用次数: 0
Abstract
Web 3.0 represents the next significant evolution of the internet that embodies the underlying decentralized network architectures, distributed ledgers, and advanced AI capabilities. Though the technologies are maturing rapidly, considerable barriers exist to high-scale adoption. The author discusses the barriers and the mitigations through specific technologies maturing to solve those issues in an earlier paper titled Moving Beyond POCs and Pilots, published in 2023 in Blockchain in Healthcare Today. These include privacy-preserving technologies, off-chain and on-chain design optimizations, and the multi-dimensional approach needed in planning and adopting these technologies. As an extension, this paper discusses one such enabler, zero knowledge machine learning (ZKML), which merges two streams of technology in unique ways to address problems in privacy and the cost of inference. Zero-knowledge proofs (ZKP) allow one party to prove the validity of a statement to another party without revealing any additional information about the statement itself. The ZKML combines the cryptographic principle of ZKP with machine learning (ML) techniques. It is still a maturing technology and needs baselines for applications in global healthcare. In this effort, the authors conceptualize the technical and operational feasibility of using ZKML and implement a reference healthcare implementation using the synthetic International Consortium for Health Outcomes Measurement (ICHOM) in the evaluation phase in a global healthcare setting for high-volume data collection, including patient-reported outcomes. Model complexity reduction is researched and reported for the ICHOM diabetes dataset to advance the usage of ML models in global standards of healthcare data collection in network decentralized architectures for increased data protection and efficiencies.
Web 3.0代表了互联网的下一个重大演变,它体现了底层的去中心化网络架构、分布式账本和先进的人工智能功能。尽管这些技术正在迅速成熟,但大规模采用存在相当大的障碍。作者在早前的一篇题为《超越POCs和试点》的论文中讨论了障碍和通过成熟的特定技术来解决这些问题的缓解措施,该论文于2023年发表在b区块链的《Healthcare Today》上。其中包括隐私保护技术、链下和链上设计优化,以及规划和采用这些技术所需的多维方法。作为扩展,本文讨论了一个这样的推动者,零知识机器学习(ZKML),它以独特的方式合并了两种技术流来解决隐私和推理成本问题。零知识证明(ZKP)允许一方向另一方证明陈述的有效性,而不泄露任何关于陈述本身的额外信息。ZKML结合了ZKP的密码学原理和机器学习(ML)技术。它仍然是一项成熟的技术,需要在全球医疗保健领域的应用基线。在这项工作中,作者概念化了使用ZKML的技术和操作可行性,并在全球医疗保健环境的评估阶段使用综合国际健康结果测量联盟(ICHOM)实现了参考医疗保健实施,用于大量数据收集,包括患者报告的结果。研究并报告了ICHOM糖尿病数据集的模型复杂性降低,以促进ML模型在网络分散架构中医疗保健数据收集的全球标准中的使用,以提高数据保护和效率。
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