Ants-Review: A Privacy-Oriented Protocol for Incentivized Open Peer Reviews on Ethereum

Authors  : Bianca Trovò, Nazzareno Massari

Peer review is a necessary and essential quality control step for scientific publications but lacks proper incentives. Indeed, the process, which is very costly in terms of time and intellectual investment, not only is not remunerated by the journals but it is also not openly recognized by the academic community as a relevant scientific output for a researcher.

Therefore, scientific dissemination is affected in timeliness, quality and fairness. Here, to solve this issue, we propose a blockchain-based incentive system that rewards scientists for peer reviewing other scientists’ work and that builds up trust and reputation.

We designed a privacy-oriented protocol of smart contracts called Ants-Review that allows authors to issue a bounty for open anonymous peer reviews on Ethereum.

If requirements are met, peer reviews will be accepted and paid by the approver proportionally to their assessed quality. To promote ethical behaviour and inclusiveness the system implements a gamified mechanism that allows the whole community to evaluate the peer reviews and vote for the best ones.


The fundamental problem blocking open access and how to overcome it: the BitViews project

Authors : Camillo Lamanna, Manfredi La Manna

In our view the fundamental obstacle to open access (OA) is the lack of any incentive-based mechanism that unbundles authors’ accepted manuscripts (AMs) from articles (VoRs).

The former can be seen as the public good that ought to be openly accessible, whereas the latter is owned by publishers and rightly paywall-restricted. We propose one such mechanism to overcome this obstacle: BitViews.

BitViews is a blockchain-based application that aims to revolutionize the OA publishing ecosystem. Currently, the main academic currency of value is the citation. There have been attempts in the past to create a second currency whose measure is the online usage of research materials (e.g. PIRUS).

However, these have failed due to two problems. Firstly, it has been impossible to find a single agency willing to co-ordinate and fund the validation and collation of global online usage data. Secondly, online usage metrics have lacked transparency in how they filter non-human online activity.

BitViews is a novel solution which uses blockchain technology to bypass both problems: online AMS usage will be recorded on a public, distributed ledger, obviating the need for a central responsible agency, and the rules governing activity-filtering will be part of the open-source BitViews blockchain application, creating complete transparency.

Once online AMS usage has measurable value, researchers will be incentivized to promote and disseminate AMs. This will fundamentally re-orient the academic publishing ecosystem.

A key feature of BitViews is that its success (or failure) is wholly and exclusively in the hands of the worldwide community of university and research libraries, as we suggest that it ought to be financed by conditional crowdfunding, whereby the actual financial commitment of each contributing library depends on the total amount raised.

If the financing target is not reached, then all contributions are returned in full and if the target is over-fulfilled, then the surplus is returned pro rata.

URL : The fundamental problem blocking open access and how to overcome it: the BitViews project



Blockchain and OECD data repositories: opportunities and policymaking implications

Authors : Miguel-Angel Sicilia, Anna Visvizi


The purpose of this paper is to employ the case of Organization for Economic Cooperation and Development (OECD) data repositories to examine the potential of blockchain technology in the context of addressing basic contemporary societal concerns, such as transparency, accountability and trust in the policymaking process. Current approaches to sharing data employ standardized metadata, in which the provider of the service is assumed to be a trusted party.

However, derived data, analytic processes or links from policies, are in many cases not shared in the same form, thus breaking the provenance trace and making the repetition of analysis conducted in the past difficult. Similarly, it becomes tricky to test whether certain conditions justifying policies implemented still apply.

A higher level of reuse would require a decentralized approach to sharing both data and analytic scripts and software. This could be supported by a combination of blockchain and decentralized file system technology.


The findings presented in this paper have been derived from an analysis of a case study, i.e., analytics using data made available by the OECD. The set of data the OECD provides is vast and is used broadly.

The argument is structured as follows. First, current issues and topics shaping the debate on blockchain are outlined. Then, a redefinition of the main artifacts on which some simple or convoluted analytic results are based is revised for some concrete purposes.

The requirements on provenance, trust and repeatability are discussed with regards to the architecture proposed, and a proof of concept using smart contracts is used for reasoning on relevant scenarios.


A combination of decentralized file systems and an open blockchain such as Ethereum supporting smart contracts can ascertain that the set of artifacts used for the analytics is shared. This enables the sequence underlying the successive stages of research and/or policymaking to be preserved.

This suggests that, in turn, and ex post, it becomes possible to test whether evidence supporting certain findings and/or policy decisions still hold. Moreover, unlike traditional databases, blockchain technology makes it possible that immutable records can be stored.

This means that the artifacts can be used for further exploitation or repetition of results. In practical terms, the use of blockchain technology creates the opportunity to enhance the evidence-based approach to policy design and policy recommendations that the OECD fosters.

That is, it might enable the stakeholders not only to use the data available in the OECD repositories but also to assess corrections to a given policy strategy or modify its scope.

Research limitations/implications

Blockchains and related technologies are still maturing, and several questions related to their use and potential remain underexplored. Several issues require particular consideration in future research, including anonymity, scalability and stability of the data repository.

This research took as example OECD data repositories, precisely to make the point that more research and more dialogue between the research and policymaking community is needed to embrace the challenges and opportunities blockchain technology generates.

Several questions that this research prompts have not been addressed. For instance, the question of how the sharing economy concept for the specifics of the case could be employed in the context of blockchain has not been dealt with.

Practical implications

The practical implications of the research presented here can be summarized in two ways. On the one hand, by suggesting how a combination of decentralized file systems and an open blockchain, such as Ethereum supporting smart contracts, can ascertain that artifacts are shared, this paper paves the way toward a discussion on how to make this approach and solution reality.

The approach and architecture proposed in this paper would provide a way to increase the scope of the reuse of statistical data and results and thus would improve the effectiveness of decision making as well as the transparency of the evidence supporting policy.

Social implications

Decentralizing analytic artifacts will add to existing open data practices an additional layer of benefits for different actors, including but not limited to policymakers, journalists, analysts and/or researchers without the need to establish centrally managed institutions.

Moreover, due to the degree of decentralization and absence of a single-entry point, the vulnerability of data repositories to cyberthreats might be reduced. Simultaneously, by ensuring that artifacts derived from data based in those distributed depositories are made immutable therein, full reproducibility of conclusions concerning the data is possible.

In the field of data-driven policymaking processes, it might allow policymakers to devise more accurate ways of addressing pressing issues and challenges.


This paper offers the first blueprint of a form of sharing that complements open data practices with the decentralized approach of blockchain and decentralized file systems.

The case of OECD data repositories is used to highlight that while data storing is important, the real added value of blockchain technology rests in the possible change on how we use the data and data sets in the repositories. It would eventually enable a more transparent and actionable approach to linking policy up with the supporting evidence.

From a different angle, throughout the paper the case is made that rather than simply data, artifacts from conducted analyses should be made persistent in a blockchain.

What is at stake is the full reproducibility of conclusions based on a given set of data, coupled with the possibility of ex post testing the validity of the assumptions and evidence underlying those conclusions.


La Blockchain : une nouvelle infrastructure numérique pour l’édition ?

Auteur/Author : Camille Pichon

Au cours de cette étude, nous nous interrogerons sur la notion de blockchain et d’édition, nous nous interrogerons sur la possibilité que cette technologie puisse constituer une nouvelle infrastructure d’internet pour l’édition.

En mettant en lumière les grands principes de la technologie blockchain, nous nous interrogerons sur sa capacité à émerger dans un secteur culturel en pleine mutation.

A la fois complexe et très politisée, la technologie blockchain rentre peu à peu dans nos systèmes de pensées. La blockchain constituera-t-elle l’avenir du secteur éditorial ?

URL : La Blockchain : une nouvelle infrastructure numérique pour l’édition ?

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Towards a Decentralized Process for Scientific Publication and Peer Review using Blockchain and IPFS

Authors : Antonio Tenorio-Fornés, Viktor Jacynycz, David Llop, Antonio A. Sanchez-Ruiz, Samer Hassan

The current processes of scientific publication and peer review raise concerns around fairness, quality, performance, cost, and accuracy. The Open Access movement has been unable to fulfill all its promises, and a few middlemen publishers can still impose policies and concentrate profits.

This paper, using emerging distributed technologies such as Blockchain and IPFS, proposes a decentralized publication system for open science.

The proposed system would provide (1) a distributed reviewer reputation system, (2) an Open Access by-design infrastructure, and (3) transparent governance processes.

A survey is used to evaluate the problems, proposed solutions and possible adoption resistances, while a working prototype serves as a proof-of-concept.

Additionally, the paper discusses the implementation, in a distributed context, of different privacy settings for both open peer review and reputation systems, introducing a novel approach supporting both anonymous and accountable reviews. The paper concludes reviewing the open challenges of this ambitious proposal.

URL : Towards a Decentralized Process for Scientific Publication and Peer Review using Blockchain and IPFS