The Landscape of Open Data Policies

Curated on Posted on by Stefaan Verhulst

Apograf: “Open Access (OA) publishing has a long history, going back to the early 1990s, and was born with the explicit intention of improving access to scholarly literature. The internet has played a pivotal role in garnering support for free and reusable research publications, as well as stronger and more democratic peer-review systems — ones are not bogged down by the restrictions of influential publishing platforms….

Looking back, looking forward

Launched in 1991, ArXiv.org was a pioneering platform in this regard, a telling example of how researchers could cooperate to publish academic papers for free and in full view for the public. Though it has limitations — papers are curated by moderators and are not peer-reviewed — arXiv is a demonstration of how technology can be used to overcome some of the incentive and distribution problems that scientific research had long been subjected to.

The scientific community has itself assumed the mantle to this end: the Budapest Open Access Initiative (BOAI) and the Berlin Declaration on Open Access Initiative, launched in 2002 and 2003 respectively, are considered landmark movements in the push for unrestricted access to scientific research. While mostly symbolic, the effort highlighted the growing desire to solve the problems plaguing the space through technology.

The BOAI manifesto begins with a statement that is an encapsulation of the movement’s purpose,

“An old tradition and a new technology have converged to make possible an unprecedented public good. The old tradition is the willingness of scientists and scholars to publish the fruits of their research in scholarly journals without payment, for the sake of inquiry and knowledge. The new technology is the internet. The public good they make possible is the world-wide electronic distribution of the peer-reviewed journal literature and completely free and unrestricted access to it by all scientists, scholars, teachers, students, and other curious minds.”

Plan S is a more recent attempt to make publicly funded research available to all. Launched by Science Europe in September 2018, Plan S — short for ‘Shock’ — has energized the research community with its resolution to make access to publicly funded knowledge a right to everyone and dissolve the profit-driven ecosystem of research publication. Members of the European Union have vowed to achieve this by 2020.

Plan S has been supported by governments outside Europe as well. China has thrown itself behind it, and the state of California has enacted a law that requires open access to research one year after publishing. It is, of course, not without its challenges: advocacy and ensuring that publishing is not restricted a few venues are two such obstacles. However, the organization behind forming the guidelines, cOAlition S, has agreed to make the guidelines more flexible.

The emergence of this trend is not without its difficulties, however, and numerous obstacles continue to hinder the dissemination of information in a manner that is truly transparent and public. Chief among these are the many gates that continue to keep research as somewhat of exclusive property, besides the fact that the infrastructure and development for such systems are short on funding and staff…..(More)”.

Public Value: How can it be measured, managed and grown?

Curated on Posted on by Stefaan Verhulst

Geoff Mulgan et al at Nesta: “It builds on work Nesta has done in many fields – from health and culture to public services – to find more rounded and realistic ways of capturing the many dimensions of value created by public action. It is relevant to our work influencing governments and charities as well as to our own work as a funder, since our status as a charity commits us to creating public benefit.

Our aim in this work is to make value more transparent and more open to interrogation, whether that concerns libraries, bicycle lanes, museums, primary health services or training programmes for the unemployed. We recognise that value may come from government action; it can also be created by others, in civil society and business. And we recognise that value can often be complex, whether in terms of who benefits, or how it relates to values, as well as more technical issues such as what discount rates to apply.

But unless value is attended to explicitly, we risk ending up with unhappy results….(More)”.

The European Lead Factory: Collective intelligence and cooperation to improve patients’ lives

Curated on Posted on by Stefaan Verhulst

Press Release: “While researchers from small and medium-sized companies and academic institutions often have enormous numbers of ideas, they don’t always have enough time or resources to develop them all. As a result, many ideas get left behind because companies and academics typically have to focus on narrow areas of research. This is known as the “Innovation Gap”. ESCulab (European Screening Centre: unique library for attractive biology) aims to turn this problem into an opportunity by creating a comprehensive library of high-quality compounds. This will serve as a basis for testing potential research targets against a wide variety of compounds.

Any researcher from a European academic institution or a small to medium-sized enterprise within the consortium can apply for a screening of their potential drug target. If a submitted target idea is positively assessed by a committee of experts it will be run through a screening process and the submitting party will receive a dossier of up to 50 potentially relevant substances that can serve as starting points for further drug discovery activities.

ESCulab will build Europe’s largest collaborative drug discovery platform and is equipped with a total budget of € 36.5 million: Half is provided by the European Union’s Innovative Medicines Initiative (IMI) and half comes from in-kind contributions from companies of the European Federation of Pharmaceutical Industries an Associations (EFPIA) and the Medicines for Malaria Venture. It builds on the existing library of the European Lead Factory , which consists of around 200,000 compounds, as well as around 350,000 compounds from EFPIA companies. The European Lead Factory aims to initiate 185 new drug discovery projects through the ESCulab project by screening drug targets against its library.

… The platform has already provided a major boost for drug discovery in Europe and is a strong example of how crowdsourcing, collective intelligence and the cooperation within the IMI framework can create real value for academia, industry, society and patients….(More)”

EU countries and car manufacturers to share information to improve road safety

Curated on Posted on by Stefaan Verhulst

Press Release: “EU member states, car manufacturers and navigation systems suppliers will share information on road conditions with the aim of improving road safety. Cora van Nieuwenhuizen, Minister of Infrastructure and Water Management, agreed this today with four other EU countries during the ITS European Congress in Eindhoven. These agreements mean that millions of motorists in the Netherlands will have access to more information on unsafe road conditions along their route.

The data on road conditions that is registered by modern cars is steadily improving. For instance, information on iciness, wrong-way drivers and breakdowns in emergency lanes. This kind of data can be instantly shared with road authorities and other vehicles following the same route. Drivers can then adapt their driving behaviour appropriately so that accidents and delays are prevented….

The partnership was announced today at the ITS European Congress, the largest European event in the fields of smart mobility and the digitalisation of transport. Among other things, various demonstrations were given on how sharing this type of data contributes to road safety. In the year ahead, the car manufacturers BMW, Volvo, Ford and Daimler, the EU member states Germany, the Netherlands, Finland, Spain and Luxembourg, and navigation system suppliers TomTom and HERE will be sharing data. This means that millions of motorists across the whole of Europe will receive road safety information in their car. Talks on participating in the partnership are also being conducted with other European countries and companies.

ADAS

At the ITS congress, Minister Van Nieuwenhuizen and several dozen parties today also signed an agreement on raising awareness of advanced driver assistance systems (ADAS) and their safe use. Examples of ADAS include automatic braking systems, and blind spot detection and lane keeping systems. Using these driver assistance systems correctly makes driving a car safer and more sustainable. The agreement therefore also includes the launch of the online platform “slimonderweg.nl” where road users can share information on the benefits and risks of ADAS.
Minister Van Nieuwenhuizen: “Motorists are often unaware of all the capabilities modern cars offer. Yet correctly using driver assistance systems really can increase road safety. From today, dozens of parties are going to start working on raising awareness of ADAS and improving and encouraging the safe use of such systems so that more motorists can benefit from them.”

Connected Transport Corridors

Today at the congress, progress was also made regarding the transport of goods. For example, at the end of this year lorries on three transport corridors in our country will be sharing logistics data. This involves more than just information on environmental zones, availability of parking, recommended speeds and predicted arrival times at terminals. Other new technologies will be used in practice on a large scale, including prioritisation at smart traffic lights and driving in convoy. Preparatory work on the corridors around Amsterdam and Rotterdam and in the southern Netherlands has started…..(More)”.

The Right to the Datafied City: Interfacing the Urban Data Commons

Curated on Posted on by Stefaan Verhulst

Chapter by Michiel de Lange in The Right to the Smart City: “The current datafication of cities raises questions about what Lefebvre and many after him have called “the right to the city.” In this contribution, I investigate how the use of data for civic purposes may strengthen the “right to the datafied city,” that is, the degree to which different people engage and participate in shaping urban life and culture, and experience a sense of ownership. The notion of the commons acts as the prism to see how data may serve to foster this participatory “smart citizenship” around collective issues. This contribution critically engages with recent attempts to theorize the city as a commons. Instead of seeing the city as a whole as a commons, it proposes a more fine-grained perspective of the “commons-as-interface.” The “commons-as-interface,” it is argued, productively connects urban data to the human-level political agency implied by “the right to the city” through processes of translation and collectivization. The term is applied to three short case studies, to analyze how these processes engender a “right to the datafied city.” The contribution ends by considering the connections between two seemingly opposed discourses about the role of data in the smart city – the cybernetic view versus a humanist view. It is suggested that the commons-as-interface allows for more detailed investigations of mediation processes between data, human actors, and urban issues….(More)”.

Come to Finland if you want to glimpse the future of health data!

Curated on Posted on by Stefaan Verhulst

Jukka Vahti at Sitra: “The Finnish tradition of establishing, maintaining and developing data registers goes back to the 1600s, when parish records were first kept.

When this old custom is combined with the opportunities afforded by digitisation, the positive approach Finns have towards research and technology, and the recently updated legislation enabling the data economy, Finland and the Finnish people can lead the way as Europe gradually, or even suddenly, switches to a fair data economy.

The foundations for a fair data economy already exist

The fair data economy is a natural continuation of the former projects promoting e-services that were undertaken in Finland.

For example, the Data Exchange Layer is already speeding up the transfer of data from one system to another in Finland and in Estonia, the country where the system originated, and a system unique to just these two countries.

In May 2019 Finland also saw the entry into force of the Act on the Secondary Use of Health and Social Data, according to which the information on social welfare and healthcare held in registers may be used for purposes of statistics, research, education, knowledge management, control and supervision conducted by authorities, and development and innovation activity.

The new law will make the work of researchers and service developers more effective, as the business of acquiring a permit will take place through a one-stop-shop principle and it will be possible to use data from more than one source more readily than before….(More)”.

The Geopolitics of Information

Curated on Posted on by Stefaan Verhulst

Paper by Eric Rosenbach and Katherine Mansted: “Information is now the world’s most consequential and contested geopolitical resource. The world’s most profitable businesses have asserted for years that data is the “new oil.” Political campaigns—and foreign intelligence operatives—have shown over the past two American presidential elections that data-driven social media is the key to public opinion. Leading scientists and technologists understand that good datasets, not just algorithms, will give them a competitive edge.

Data-driven innovation is not only disrupting economies and societies; it is reshaping relations between nations. The pursuit of information power—involving states’ ability to use information to influence, decide, create and communicate—is causing states to rewrite their terms of engagement with markets and citizens, and to redefine national interests and strategic priorities. In short, information power is altering the nature and behavior of the fundamental building block of international relations, the state, with potentially seismic consequences.

Authoritarian governments recognize the strategic importance of information and over the past five years have operationalized powerful domestic and international information strategies. They are cauterizing their domestic information environments and shutting off their citizens from global information flows, while weaponizing information to attack and destabilize democracies. In particular, China and Russia believe that strategic competition in the 21st century is characterized by a zero-sum contest for control of data, as well as the technology and talent needed to convert data into useful information.

Democracies remain fundamentally unprepared for strategic competition in the Information Age. For the United States in particular, as the importance of information as a geopolitical resource has waxed, its information dominance has waned. Since the end of the Cold War, America’s supremacy in information technologies seemed unassailable—not least because of its central role in creating the Internet and overall economic primacy. Democracies have also considered any type of information strategy to be largely unneeded: government involvement in the domestic information environment feels Orwellian, while democracies believed that their “inherently benign” foreign policy didn’t need extensive influence operations.

However, to compete and thrive in the 21st century, democracies, and the United States in particular, must develop new national security and economic strategies that address the geopolitics of information. In the 20th century, market capitalist democracies geared infrastructure, energy, trade, and even social policy to protect and advance that era’s key source of power—manufacturing. In this century, democracies must better account for information geopolitics across all dimensions of domestic policy and national strategy….(More)”.

So­cial me­dia data re­veal where vis­it­ors to nature loca­tions provide po­ten­tial be­ne­fits or threats to biodiversity

Curated on Posted on by Stefaan Verhulst

University of Helsinki: “In a new article published in the journal Science of the Total Environment, a team of researchers assessed global patterns of visitation rates, attractiveness and pressure to more than 12,000 Important Bird and Biodiversity Areas (IBAs), which are sites of international significance for nature conservation, by using geolocated data mined from social media (Twitter and Flickr).

The study found that Important Bird and Biodiversity Areas located in Europe and Asia, and in temperate biomes, had the highest density of social media users. Results also showed that sites of importance for congregatory species, which were also more accessible, more densely populated and provided more tourism facilities, received higher visitation than did sites richer in bird species.

 “Resources in biodiversity conservation are woefully inadequate and novel data sources from social media provide openly available user-generated information about human-nature interactions, at an unprecedented spatio-temporal scale”, says Dr Anna Hausmann from the University of Helsinki, a conservation scientist leading the study. “Our group has been exploring and validating data retrieved from social media to understand people´s preferences for experiencing nature in national parks at a local, national and continental scale”, she continues, “in this study, we expand our analyses at a global level”. …

“Social media content and metadata contain useful information for understanding human-nature interactions in space and time”, says Prof. Tuuli Toivonen, another co-author in the paper and the leader of the Digital Geography Lab at the University of Helsinki. “Social media data can also be used to cross-validate and enrich data collected by conservation organizations”, she continues. The study found that the 17 percent of all Important Bird and Biodiversity Areas (IBA) that were assessed by experts to be under greater human disturbance also had higher density of social media users….(More)”.

Commission publishes guidance on free flow of non-personal data

Curated on Posted on by Stefaan Verhulst

European Commission: “The guidance fulfils an obligation in the Regulation on the free flow of non-personal data (FFD Regulation), which requires the Commission to publish a guidance on the interaction between this Regulation and the General Data Protection Regulation (GDPR), especially as regards datasets composed of both personal and non-personal data. It aims to help users – in particular small and medium-sized enterprises – understand the interaction between the two regulations.

In line with the existing GDPR documents, prepared by the European Data Protection Board, this guidance document aims to clarify which rules apply when processing personal and non-personal data. It gives a useful overview of the central concepts of the free flow of personal and non-personal data within the EU, while explaining the relation between the two Regulations in practical terms and with concrete examples….

Non-personal data are distinct from personal data, as laid down in the GDPR Regulation. The non-personal data can be categorised in terms of origin, namely:

  • data which originally did not relate to an identified or identifiable natural person, such as data on weather conditions generated by sensors installed on wind turbines, or data on maintenance needs for industrial machines; or
  • data which was initially personal data, but later made anonymous.

While the guidance refers to more examples of non-personal data, it also explains the concept of personal data, anonymised and pseudonymised, to provide a better understanding as well describes the limitations between personal and non-personal data.

What are mixed datasets?

In most real-life situations, a dataset is very likely to be composed of both personal and non-personal data. This is often referred to as a “mixed dataset”. Mixed datasets represent the majority of datasets used in the data economy and commonly gathered thanks to technological developments such as the Internet of Things (i.e. digitally connecting objects), artificial intelligence and technologies enabling big data analytics.

Examples of mixed datasets include a company’s tax records, mentioning the name and telephone number of the managing director of the company. This can also include a company’s knowledge of IT problems and solutions based on individual incident reports, or a research institution’s anonymised statistical data and the raw data initially collected, such as the replies of individual respondents to statistical survey questions….(More)”.

Open Data and the Private Sector

Curated on Posted on by Stefaan Verhulst

Chapter by Joel Gurin, Carla Bonini and Stefaan Verhulst in State of Open Data: “The open data movement launched a decade ago with a focus on transparency, good governance, and citizen participation. As other chapters in this collection have documented in detail, those critical uses of open data have remained paramount and are continuing to grow in importance at a time of fake news and increased secrecy. But the value of open data extends beyond transparency and accountability – open data is also an important resource for business and economic growth.

The past several years have seen an increased focus on the value of open data to the private sector. In 2012, the Open Data Institute (ODI) was founded in the United Kingdom (UK) and backed with GBP 10 million by the UK government to maximise the value of open data in business and government. A year later, McKinsey released a report suggesting open data could help unlock USD 3 to 5 trillion in economic value annually. At around the same time, Monsanto acquired the Climate Corporation, a digital agriculture company that leverages open data to inform farmers for approximately USD 1.1 billion. In 2014, the GovLab launched the Open Data 500,2the first national study of businesses using open government data (now in six countries), and, in 2015, Open Data for Development (OD4D) launched the Open Data Impact Map, which today contains more than 1 100 examples of private sector companies using open data. The potential business applications of open data continue to be a priority for many governments around the world as they plan and develop their data programmes.

The use of open data has become part of the broader business practice of using data and data science to inform business decisions, ranging from launching new products and services to optimising processes and outsmarting the competition. In this chapter, we take stock of the state of open data and the private sector by analysing how the private sector both leverages and contributes to the open data ecosystem….(More)”.