A Survey on Vertical Federated Learning: From a Layered Perspective
This survey addresses the need for structured understanding and development in VFL, which has business value in commercial scenarios like finance and healthcare, but it is incremental as it organizes existing research rather than proposing new methods.
The paper conducts a systematic survey of vertical federated learning (VFL) from a layered perspective, categorizing existing work and challenges across hardware to system layers, and introduces a novel MOSP tree taxonomy to analyze secure VFL algorithms.
Vertical federated learning (VFL) is a promising category of federated learning for the scenario where data is vertically partitioned and distributed among parties. VFL enriches the description of samples using features from different parties to improve model capacity. Compared with horizontal federated learning, in most cases, VFL is applied in the commercial cooperation scenario of companies. Therefore, VFL contains tremendous business values. In the past few years, VFL has attracted more and more attention in both academia and industry. In this paper, we systematically investigate the current work of VFL from a layered perspective. From the hardware layer to the vertical federated system layer, researchers contribute to various aspects of VFL. Moreover, the application of VFL has covered a wide range of areas, e.g., finance, healthcare, etc. At each layer, we categorize the existing work and explore the challenges for the convenience of further research and development of VFL. Especially, we design a novel MOSP tree taxonomy to analyze the core component of VFL, i.e., secure vertical federated machine learning algorithm. Our taxonomy considers four dimensions, i.e., machine learning model (M), protection object (O), security model (S), and privacy-preserving protocol (P), and provides a comprehensive investigation.