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  • News announcement
  • 8 October 2019
  • 5 min read

Blockchain now and tomorrow: assessing the impact of distributed ledger technologies

JRC experts explore blockchain and its possible applications in depth in the report
JRC experts explore blockchain and its possible applications in depth in the report
© EU 2019

It's the technology behind bitcoin and other cryptocurrency, but blockchain has the potential to transform the way we exchange a much wider range of assets.

It could enable the secure transfer of money, contracts, land titles, data, services and other assets digitally, with few or no intermediaries.

However, applying the technology in this way is still in its infancy, with complex challenges. For example, the processing power required to run a blockchain raises questions over its energy efficiency.

Policymakers also face the task of assessing whether current legal frameworks are up to the task of protecting people as they exchange data and assets.

Today, the JRC launches a new report exploring these issues, "Blockchain now and tomorrow: Assessing multidimensional impacts of distributed ledger technologies".

Moving beyond the hype and debunking controversies, the report offers an in-depth and practical understanding of blockchain and its possible applications.

The report identifies ongoing and upcoming transformations, and sets out an anticipatory approach for applying blockchain technology in finance, industry, trade and public sectors.

There is space beyond cryptocurrencies and financial applications

Cryptocurrencies and digital tokens have been capturing most of the attention when it comes to blockchain's applications. But it also has potential in many other sectors, such as trade and supply chains, manufacturing, energy, creative industries, healthcare, and government, public and third sectors. Some features of blockchain technology that can be applied in these sectors include:

  • What is recorded on a blockchain stays as a single record, agreed and shared by all. A manufacturer can make a "digital twin" of a product on a blockchain to record its full history. This enables the tracking and tracing of how a product is built, stored, inspected and transported throughout its whole value chain. It can provide proof of ownership rights, helping to prevent unauthorised use, theft and infringements.
  • Blockchain enables smart contracts that could help to manage supply-and-demand flows of available energy. Working together with other technologies, like smart meters or sensors, smart contracts could automatically check prices and execute buy and sell orders. For a local producer of renewable energy, this could mean that they can trade energy with others in their communities more quickly and effectively. In the future this could support the development of peer-to-peer and energy communities.
  • It can be easy for everyone to check available data on a blockchain in a secure and transparent way. When checking public benefits like pension rights, a citizen could access their complete funds and contributions along his or her life. A tax authority could also have access to this information for every citizen, which can reduce processing time and administrative costs for all involved.

A global ecosystem is on the rise from start-ups to capital investment

We can see the rise of blockchain technology both in the sharp growth in blockchain start-ups and by the volume of their funding. International players in the United States are taking the lead, followed by China and the European Union.

Funding reached over EUR 7.4 billion in 2018 due to the explosion of venture capital investments and 'initial coin offerings'.

Blockchain does not follow a "one-size-fits-all" model

The potential opportunities and challenges of deploying blockchain technology are strongly related to context, application or sectorial issues.

That is why organisations should not develop solutions looking for problems, but find existing or foreseeable problems in their operations or business, and then look for possible blockchain solutions.

Bottlenecks and complex challenges lie ahead

Blockchain technology is still at the embryonic stage and facing many challenges, such as performance and scalability, energy consumption, data privacy, integration with legacy infrastructures, or interoperability between different blockchains.

Still based on a limited set of proven use cases, blockchain often entails additional risks and barriers for firms, businesses and organisations piloting it or interested in its deployment.

The concepts of trust and disintermediation are changing

Despite widespread misconceptions, blockchain does not imply the total elimination of intermediaries or third parties.

Some intermediaries may disappear but new ones will appear and traditional ones, like governments, will continue to play a long-term role, not least to guarantee equal conditions for participation, check the quality and validity of data, decide on responsibility and liability, or settle disputes and enforce rules.

Regulatory frameworks and guidelines are catching up

Policymakers and regulators need to progress in assessing whether existing policies and laws are fit for purpose or if new frameworks will be required.

Pressing discussions include, for instance, the legal classification of tokens and coins, validity of smart contracts, applicable jurisdictions, consumer and investor protection, enforcement of anti-money laundering requirements, and data protection and privacy safeguards.

Integration with digitisation initiatives and programmes is key

Blockchains will be complementary or will work together with other key digital technologies, such as artificial intelligence, the 'internet of things', data analytics, cloud computing, robotics and additive manufacturing.

The development of blockchain should be connected to existing digitisation initiatives and programmes to avoid overlaps and to maximise impact.

Piloting and experimentation spaces are needed

As an emerging technology, blockchain requires the multiplication of use cases to test its added value in specific applications and sectors.

Further support and funding for pilots and experimentation spaces must bring together a range of stakeholders from universities, research centres, industry, SMEs and start-ups.

Capacity building and knowledge sharing can be decisive

Environments such as regulatory sandboxes and other experimentation spaces can promote more direct exchanges between policymakers, regulators and supervisors, on the one hand, and blockchain companies, start-ups and entrepreneurs, on the other. Key benefits can include testing new solutions and business models and improving the quality and speed of policy guidance.

Blockchain calls for an interdisciplinary and comprehensive approach

Blockchain applications can have far-reaching implications for policy, the economy, society, technology, the law and the environment.

Potential changes - for example, in economic and business models, governance mechanisms or trust between parties - can only be grasped through a mix of different areas of knowledge, including computer science, economics, law, public finance, environmental sciences, and social and political sciences.

Monitoring should be combined with an anticipatory outlook

Policy dilemmas today involve a balance between adequate enforcement of existing regulations from day one, and the flexibility to accommodate an evolving technology with both foreseeable and unforeseeable implications.

This balance can be grounded in a foresight and trend monitoring approach to enable preparedness and adaptation to an increasingly rapid pace of change.

Download the report

Blockchain Now And Tomorrow - Assessing Multidimensional Impacts of Distributed Ledger Technologies

Related Content

JRC report: Blockchain Now And Tomorrow - Assessing Multidimensional Impacts of Distributed Ledger Technologies

Details

Publication date
8 October 2019