Blockchain Consensus Algorithms (Contributed Book)

Blockchain-Consensus 2019


  • Event Date: 2019-10-31 ~ 2019-10-31
  • Submission Date: 2019-04-30

Computer Security & Cryptography Databases & Information Systems Information Theory Security & Trust & Testing



David Hyland-Wood and Shahan Khatchadourian announce a Call for Chapters for a new book to be entitled Blockchain Consensus Algorithms.
First proposal submissions are due 30 April 2019 to d.hylandwood@uq.edu.au CC to shahan.khatchadourian@consensys.net
The book is intended to be published in print, ePub format and on the Web. A publisher has not yet been chosen. At least one publisher is currently interested.
CHAPTER PROPOSALS INVITED FROM RESEARCHERS AND PRACTITIONERS IN BLOCKCHAINS, THEORETICAL COMPUTER SCIENCE, DATA SYSTEMS AND INFORMATION SYSTEMS
1st Proposal Submission Deadline: 30 April 2019
Full Chapter Submission Deadline: 30 June 2019
Blockchain Consensus Algorithms
A contributed, peer-reviewed book edited by David Hyland-Wood and Shahan
Khatchadourian
I. Introduction
Blockchain Consensus Algorithms is to be an edited volume of ten to twelve contributed chapters on the properties, trade-offs, and uses of blockchain consensus algorithms. Consensus algorithms determine how blockchains form consensus among their participating computer systems. Over 72 blockchain consensus algorithms have been publicly proposed to date, and that number is growing rapidly.
Blockchain Consensus Algorithms is intended to provide both practical and theoretical approaches to addressing common information management issues by application of leading edge research and industry experience. This book will highlight the costs and benefits of choosing consensus algorithms, and therefore the blockchains that implement them, carefully for particular business purposes. The choice of consensus algorithm has significant impact on the fit-for-purpose of a particular blockchain to a particular application requirement. The many consensus algorithms available highlight the fact that there is no silver bullet appropriate for all needs.
II. Topics of Interest
Topics of interest include, but are not limited to:
- Innovations in consensus algorithms
- Handling information uncertainty in consensus algorithms
- Handling communications disruption and/or latency in consensus algorithms
- Trust, reputation and distributed consensus
- Privacy management in consensus algorithms
- Formal verification and validation of consensus algorithms
- Formal methods analysis of consensus algorithms
- Legal and economic aspects of consensus algorithm choice
III. Publisher
The book is intended to be published in print, ePub format and on the Web. A publisher has not yet been chosen. At least one publisher is interested. This book is expected to be published in late 2019.
IV. Proposals
Proposals for chapters should consist of a summary of intended material, approximately 1-2 pages in length. Please provide a working chapter title, authors names and affiliations, relevant experience with blockchain consensus algorithms and a description of the proposed chapter’s contents.
Proposals and full chapter submissions will undergo peer review.
V. Important Dates
30 April 2019: Proposal Submission Deadline
15 May 2019: Notification of Proposal Acceptance
30 June 2019: Full Chapter Submission
15 August 2019: Review Results Notification
15 September 2019: Revised Chapter Submission
1 October 2019: Final Decision Notification
31 October 2019: Final Revised and Formatted Chapter Submission
Inquiries and submissions should be sent by electronic mail to:
d.hylandwood@uq.edu.au CC to shahan.khatchadourian@consensys.net
VI. Steering Committee
David Hyland-Wood, ConsenSys AG and School of Information Technology
and Electrical Engineering, The University of Queensland
Shahan Khatchadourian, ConsenSys AG
Marius Portmann, School of Information Technology
and Electrical Engineering, The University of Queensland
Alastair Robb, UQ Business School, The University of Queensland
Mariano Consens, Mechanical & Industrial Engineering, the
University of Toronto
Reza Samavi, Department of Computing & Software, McMaster
University
Valeria Fionda, Department of Mathematics and Computer Science,
University of Calabria