English

Promoting Distributed Trust in Machine Learning and Computational Simulation via a Blockchain Network

Distributed, Parallel, and Cluster Computing 2018-10-29 v1

Abstract

Policy decisions are increasingly dependent on the outcomes of simulations and/or machine learning models. The ability to share and interact with these outcomes is relevant across multiple fields and is especially critical in the disease modeling community where models are often only accessible and workable to the researchers that generate them. This work presents a blockchain-enabled system that establishes a decentralized trust between parties involved in a modeling process. Utilizing the OpenMalaria framework, we demonstrate the ability to store, share and maintain auditable logs and records of each step in the simulation process, showing how to validate results generated by computing workers. We also show how the system monitors worker outputs to rank and identify faulty workers via comparison to nearest neighbors or historical reward spaces as a means of ensuring model quality.

Keywords

Cite

@article{arxiv.1810.11126,
  title  = {Promoting Distributed Trust in Machine Learning and Computational Simulation via a Blockchain Network},
  author = {Nelson Kibichii Bore and Ravi Kiran Raman and Isaac M. Markus and Sekou L. Remy and Oliver Bent and Michael Hind and Eleftheria K. Pissadaki and Biplav Srivastava and Roman Vaculin and Kush R. Varshney and Komminist Weldemariam},
  journal= {arXiv preprint arXiv:1810.11126},
  year   = {2018}
}
R2 v1 2026-06-23T04:53:12.103Z