2.1. Data marketplaces and competition risks

As multisided platforms for connecting data holders with data users, data marketplaces facilitate the collection and aggregation of data from various sources, allowing it to be processed, refined, and traded (Stahl et al., Reference Stahl, Schomm, Vossen and Vomfell2016; Abbas et al., Reference Abbas, Agahari, van de Ven, Zuiderwijk and de Reuver2021). The well-functioning of data marketplaces is perceived as essential for unlocking the value of business data across sectors (European Commission, 2018). However, their unsatisfactory growth shows that, despite the possibility of making profits by monetizing their data, firms continue to be discouraged due to persistent competition risks (Spiekermann, Reference Spiekermann2019). Although significantly different across industries, data marketplaces in the automotive industry are relatively more developed (Bergman et al., Reference Bergman, Abbas, Jung, Werker and de Reuver2022), offering an example to analyze how competition risks work in practice.

Connected cars produce massive amounts of in-vehicle data that can be used by businesses to optimize performance, ensure safety, enhance automatization, etc. (Siegel et al., Reference Siegel, Erb and Sarma2017). Car manufacturers or original equipment manufacturers (OEMs) have exclusive access to the generated data as it can be directly transferred to their servers. As a result, other firms within the ecosystem are excluded from competing, leading to less consumer choice and innovation (Kerber, Reference Kerber2018). As a result of this market failure due to monopolistic dynamics, a policy intervention was deemed necessary. In response, the EU formulated the Sustainable and Smart Mobility Strategy and proposed a common European mobility data space to broaden access to these data, among others, through the promotion of data marketplaces (European Commission, 2020b).

A major reason contributing to the unsatisfactory growth of data marketplaces in the automotive industry is that OEMs are concerned about losing control over their data, as this one could be exploited against their business interests (Agahari et al., Reference Agahari, Ofe and de Reuver2022). Retaining access to the insights, their data might generate becomes a safer bet than trusting others with it, even if this entails renouncing profits. Furthermore, even if an OEM sells its data through a data marketplace to a selected third party that perceives it poses no competition risks a priori, there is no absolute guarantee that these data will not be leaked and fall into the hands of a direct business competitor. In other words, firms have strategic concerns about trusting others with their data, as there is a possibility of losing their competitive advantage if commercially sensitive data fall into the hands of business competitors (van den Broek and van Veenstra, Reference van den Broek and van Veenstra2015; Martens and Zhao, Reference Martens and Zhao2021).

2.2. Data collaboratives and privacy risks

Data collaboratives, which are understood as cross-sector partnerships involving private and public actors in the collection, processing and/or exchange of data to address a specific social issue, have been underscored by the expert group on B2G Data Sharing appointed by the European Commission (Susha et al., Reference Susha, Janssen and Verhulst2017a, p. 2691; European Commission, 2020c). Exploiting data collaboratives and similar forms of data-driven social collaborations that engage a variety of actors in the sharing of data is a major component of the European strategy for data (European Commission, 2020a). Businesses can be incentivized to participate in these partnerships through both financial and non-financial means (Susha et al., Reference Susha, Janssen and Verhulst2017b). Nonetheless, privacy risks are an important barrier to the growth of this novel approach to data sharing.

It makes a big difference for firms to share personal or non-personal data. Due to the presence of privacy regulations, when personal data enter the equation, companies adopt a more stringent and hierarchical control mechanism (even in situations where there are no apparent risks of privacy breaches) (van den Broek and van Veenstra, Reference van den Broek and van Veenstra2015). Processing and sharing personal data in the EU entail complying with the General Data Protection Regulation (GDPR), which establishes six legal bases for processing data, enforces seven data protection principles, and grants eight rights to data subjects (European Commission, 2016). To avoid going through the complex process of adhering to this regulation and not facing any penalties for non-compliance, a company might refrain from participating in data collaboratives. Moreover, even for non-personal data, re-identification risks continue to persist, given that the combination of data from various sources (e.g., geographical data containing addresses) can lead to such risks (van den Broek and van Veenstra, Reference van den Broek and van Veenstra2015).

When the sharing of data occurs across multiple entities, the likelihood of security breaches and unauthorized access that exposes the identity of individuals increases. Things get even trickier when a data collaborative involves the sharing of data across borders, as participant firms risk overlooking other countries’ privacy laws. Ultimately, privacy risks can result in regulatory risks (i.e., the legal and financial repercussions of failing to adhere to data protection regulations) as well as reputational risks.

2.3. Data philanthropy and reputational risks

Data philanthropy, also referred to as data donorship, is the donation of data by firms for a humanitarian purpose (Kirkpatrick, Reference Kirkpatrick2013; UN Global Pulse, 2014; Taddeo, Reference Taddeo2017). The purpose of a data philanthropy project is closely linked to that of data collaboratives, namely, contributing to a social cause (Susha et al., Reference Susha, Grönlund and Van Tulder2019b). Yet, a fundamental difference between the two approaches is that data philanthropy exclusively engages private firms in the sharing of data without a profit incentive (Taddeo, Reference Taddeo2017). In addition, data collaboratives are more encompassing and imply a greater degree of collaboration among participants than data philanthropy (Lev-Aretz, Reference Lev-Aretz2019).

The expert group on B2G data sharing considered data philanthropy to be a form of corporate social responsibility key for making data available during public emergencies (European Commission, 2020c). An example is Facebook’s Data for Good initiative, which contributed to the response to the COVID-19 emergency by making mobility datasets available to Italian health researchers (Kang-Xing and McGorman, Reference Kang-Xing and McGorman2020; Scotti et al., Reference Scotti, Pierri, Bonaccorsi and Flori2022). In this apparent win–win data sharing scenario, researchers could access valuable data and Facebook could expand its market reach and improve its brand’s reputation. Nonetheless, despite providing many marketing opportunities for firms, data philanthropy can also produce negative outcomes that damage their reputation (Lev-Aretz, Reference Lev-Aretz2019).

Firms are exposed to reputational risks when data sharing results in negative public perceptions of them. When sharing data with others, there is a risk that these data are used for purposes other than those that were agreed upon, including unethical ones. Such mishandling of data could produce unintended consequences that might result in a public backlash. In addition, firms might be hesitant to engage in data philanthropy because they might not want to disclose what type of data they collect and how much of it. Revealing this information could create negative perceptions and open the door for misconceptions. Lastly, a company may fear sharing inaccurate or incomplete data that lead to erroneous conclusions.

3.1. Privacy-enhancing technologies

Privacy-enhancing technologies (PETs) consist of a range of cryptographic as well as non-cryptographic techniques and methodologies to protect data from malicious forces and safeguard privacy (Heurix et al., Reference Heurix, Zimmermann, Neubauer and Fenz2015). In a data sharing scenario, the involvement of a trusted third party may be required to mediate between two or more parties and to possibly act as a certification authority to handle user registration and authentication (Heurix et al., Reference Heurix, Zimmermann, Neubauer and Fenz2015).

PETs have varying degrees of applicability, so there is no one-size-fits-all solution to every data sharing scenario. The suitability of each PET is highly context-dependent, as each has its own specific strengths and limitations. For instance, secure multiparty computation,Footnote ¹ federated learning,Footnote ² and trusted execution environmentFootnote ³ regulate access to the data (Beaver, Reference Beaver1992; Sabt et al., Reference Sabt, Achemlal and Bouabdallah2015; Kairouz et al., Reference Kairouz, McMahan, Avent, Bellet, Bennis, Bhagoji, Bonawitz, Charles, Cormode, Cummings, D’Oliveira, Eichner, El Rouayheb, Evans, Gardner, Garrett, Gascón, Ghazi, Gibbons, Gruteser, Harchaoui, He, He, Huo, Hutchinson, Hsu, Jaggi, Javidi, Joshi, Khodak, Konecní, Korolova, Koushanfar, Koyejo, Lepoint, Liu, Mittal, Mohri, Nock, Özgür, Pagh, Qi, Ramage, Raskar, Raykova, Song, Song, Stich, Sun, Suresh, Tramèr, Vepakomma, Wang, Xiong, Xu, Yang, Yu, Yu and Zhao2021), while homomorphic encryptionFootnote ⁴ and zero-knowledge proofsFootnote ⁵ hide the data (Rivest et al., Reference Rivest, Adleman and Dertouzos1978; Goldwasser et al., Reference Goldwasser, Micali and Rackoff1989) and differential privacyFootnote ⁶ and anonymizationFootnote ⁷ camouflage it (Samarati and Latanya, Reference Samarati and Latanya1998; Dwork and Roth, Reference Dwork and Roth2013). Moreover, in a data sharing scenario, the use of multiple PETs may be required (even in combination with other technologies like blockchain) (Jia et al., Reference Jia, Zhang, Liu, Zhang, Huang and Liang2022).

PETs can be difficult and costly to implement (Eurich et al., Reference Eurich, Oertel and Boutellier2010) and may contradict ethical principles such as data minimization (i.e., limiting the collection of data to what is absolutely necessary). Because PETs cannot be flawless, they can produce a false sense of security (Renieris, Reference Renieris2021). Furthermore, it is unclear whether the mere presence of PETs would enable trust or if a sufficient understanding of the technique is necessary by the parties involved in the sharing of data. In addition, another persistent challenge in implementing PETs is securing information while maximizing the utility of the data. Ultimately, as PETs continue to evolve and be employed in combination with other technologies, questions about their efficacy remain, especially in light of the present and emerging instruments employed for re-identification purposes (Ohm, Reference Ohm2010).

3.2. Data intermediaries

Data intermediaries are an emerging type of actor in the data economy that can be broadly defined as mediators “between those who wish to make their data available and those who seek to leverage that data” (Janssen and Singh, Reference Janssen and Singh2022a, p. 2). In certain commercial and non-commercial settings, public and private actors can coordinate the supply and demand of personal and non-personal data more efficiently through a data intermediary that provides the necessary infrastructure to match data holders and users (Richter and Slowinski, Reference Richter and Slowinski2019).

Data intermediaries can reduce transaction costs (e.g., by guaranteeing interoperability), exploit economies of scale, and capture positive externalities through the application of new technologies and organizational techniques (Martens et al., Reference Martens, de Streel, Graef, Tombal and Duch-Brown2020). They can provide a robust contractual framework for enforcing obligations and facilitating compliance with data protection regulations (von Grafenstein, Reference von Grafenstein2022; Richter, Reference Richter2023). Regarding risks related to data security and privacy, neutral tools for managing data access and permissions can be supplied by an intermediary, which could also act as a trusted third party to supervise the use of PETs. Furthermore, intermediaries can incorporate in data sharing agreements contractual transactions absent in B2B contexts that mitigate post-contractual risks (Martens et al., Reference Martens, de Streel, Graef, Tombal and Duch-Brown2020, p. 29). For example, Advaneo Footnote ⁸ is a data marketplace for businesses to monetize and manage their data in a privacy-preserving way, setting rights and obligations for buyers and sellers. Thanks to its architecture, data providers always retain sovereignty over the raw data, which is only accessible through metadata.

Although the central position of data intermediaries like data marketplaces is advantageous for mitigating power and information asymmetries, a key informational challenge persists due to the intrinsic characteristics of data. The complexity of estimating its value prior to its utilization makes data an asset that can be more difficult to share and trade than tangible goods (Spiekermann, Reference Spiekermann2019). Buyers might not seek to acquire certain data without a clear vision of the benefits it can provide. Meanwhile, a seller might decide not to assume the abstract risks (e.g., competition, privacy, and reputational risks) involved in disclosing data without a sufficient understanding of its concrete value (von Grafenstein, Reference von Grafenstein2022). As a result, data can be perceived as overvalued for buyers and undervalued for sellers. Therefore, intermediaries cannot avoid that when data are priced according to market dynamics, in which buyers and sellers negotiate its cost, this process will reflect the relative bargaining power and information held by the parties.

While at first, a data intermediary may appear to be neutral in a way that avoids prioritizing the interests of the parties involved, its role, model of governance and, incentive structures are highly contextual, so the strategic aims of the organization will be reflected in its business model (Richter and Slowinski, Reference Richter and Slowinski2019). In other words, the growth objectives of the entity behind the data intermediary will influence the way it operates, possibly affecting its neutrality. How a data intermediary configures its services, pricing strategies, partnerships, technologies and other aspects of its business is likely to reflect its long-term goals, which can influence its capacity to enable trust.

3.3. Data exchange platforms

Data exchange platforms provide businesses with the software tools to share their data. To enable trust, their architecture ought to be designed in a way that maximizes usage control and minimizes perceived risks, with a data intermediary potentially serving as the organization responsible for overseeing the management of these data sharing systems.

Merely determining who can access specific data may be insufficient for a business that considers it crucial to also define the purposes for which its data must be used or the duration for which the data are made available (Pearson and Casassa-Mont, Reference Pearson and Casassa-Mont2011). To further increase usage control, data exchange platforms could allow a company to monitor data usage in real time. This way, a company will be more likely to trust other agents with its data, as it can reverse or amend its decisions if expectations are not met (Carballa Smichowski et al., Reference Carballa Smichowski, Duch Brown and Martens2021, p. 4).

An example of a data exchange platform is the Snowflake Data Exchange Footnote ⁹, which allows organizations to share data with business partners. This private platform gives users the possibility to supervise access, audit usage, and implement security controls. Regarding the latter, secure authentication mechanisms and intrusion detection systems can provide a greater sense of control to enable trust. Other platforms like Dawex Footnote ¹⁰ operate with distributed technologies such as blockchain to lessen the need to place trust in others by constraining data users’ actions. To ensure privacy and further protect data, PETs can be integrated into these platforms. Such a mix of technological solutions employed to enable trust in data sharing illustrates the societal shift from interpersonal trust relations mediated by humans to trust produced by technological intermediaries.

Even if a platform claims to have robust security measures, the lack of control over the data can be unacceptable for certain businesses, which must ensure business confidentiality and comply with relevant privacy and data protection regulations. Furthermore, purchasing the services of a platform can be costly. Hence, governments can intervene by constructing infrastructure to operate data exchanges and offering them as a public service alternative. Gaia-X Footnote ¹¹ is the most prominent example in the European context. In addition, notable examples include the Asynchronous Data Exchange (ADEX) Footnote ¹² in Singapore, the Amsterdam Data Exchange (AMdEX) Footnote ¹³, and the Shanghai Data Exchange Footnote ¹⁴ (which saw the trading of data products surpass $1 billion in 2023).

3.4. Government support

Government support for enabling trust in private sector data sharing can be implemented through regulatory frameworks that establish guidelines for sharing data within or across different sectors. This is crucial, as the lack of legal recognition might have contributed to the unsatisfactory growth of the three approaches previously discussed: data marketplaces, data collaboratives, and data philanthropy (Lev-Aretz, Reference Lev-Aretz2019; Spiekermann, Reference Spiekermann2019; Susha et al., Reference Susha, Grönlund and Van Tulder2019b). A regulatory framework can increase accountability, an important element to enable trust (Bodó, Reference Bodó2021).

A more structured regulatory environment with clearer guidelines can pave the way for government support to take the form of incentives, including subsidies, tax breaks, and grants. For example, Data4Industry-X Footnote ¹⁵ is a decentralized data exchange for Industry 4.0 that has been backed by the French government’s France 2030 initiative and the Next Generation EU funding program.

Nevertheless, unlocking the value of data is partly the result of constant engagement among stakeholders, trial-and-error experimentation and harmonizing conflicting interests (Günther et al., Reference Günther, Rezazade Mehrizi, Huysman and Feldberg2017). Taking shortcuts through government support is susceptible to several challenges. This one can backfire if it is perceived as overly stringent and an impediment to firms’ ability to engage in data sharing independently. Moreover, an enforceable legal framework like the Data Governance Act and Data Act can lead to risk aversion among firms that want to avoid complications. Government support can also lead to regulatory capture, where the interests of certain industry players are prioritized over others. Moreover, in highly evolving data-driven industries, support can arrive late due to the difficulties of reaching agreements swiftly. Ultimately, since public institutions can build and undermine trust, supporting data sharing can backfire and erode trust in public institutions (Bodó, Reference Bodó2021).

3.5. Data sharing agreements

An agreement can enable trust by increasing transparency and further guaranteeing accountability among the parties, thereby contributing to firms’ confidence that their rights are defined and backed by legal assurances. Such a framework clarifies the roles of the parties involved, the purposes of sharing data, the procedures to be followed and the standards to be met (Information Commissioner’s Office, 2021; Sitra, 2022). Regarding special categories of data, agreements are complemented with additional clauses that deal with relevant data protection principles. In the case of ambiguities, the data holder can impose specific restrictions, exceptions, or territorial limitations on the use of data as well (Association of Banks in Singapore, 2019).

The scope of the data sharing agreement can be delineated and any technical terms can be defined in a glossary. Responsibilities should be assigned to the parties and their rights and obligations should be defined. Additional clauses of the agreement can include elements such as confidentiality, intellectual property, liabilities, force majeure, auditing, termination, validity, and dispute resolution. For certain activities, agreements state the specific purposes for which the data will be used and the reasons why that particular data are needed to help ensure that the data will not be misused. Furthermore, a section stating the penalties for non-compliance can be added. Finally, any relevant laws and regulations should be invoked.

Nonetheless, even a well-defined agreement has important drawbacks to consider. Since contracts will always be open to interpretation, there will inevitably be room for disputes. Additionally, the framework cannot be future-proof because of its inability to account for unforeseen events. This situation creates a paradox: The agreement must strike a balance between clarity to enable trust while remaining flexible enough to accommodate the latest developments in the changing technological landscape of data-driven industries. Furthermore, as business strategies change, what was once a mutually beneficial agreement could turn into a situation where the interests of the parties diverge and, in cases where the contract is not adequately enforced, trust will be eroded.

3.6. Regulatory sandboxes

Regulatory sandboxes are a novel regulatory tool in emerging industries to foster innovation while ensuring consumer protection (Allen, Reference Allen2019). They provide a controlled environment for companies to test new products and services under the supervision of regulators (European Council, 2020). By granting exemptions from certain regulatory requirements, this tool offers an opportunity for firms to engage in less risky data sharing initiatives in order to understand how new data sharing technologies work in practice (Datasphere Initiative, 2022).

For instance, the government of Singapore invited firms interested in working with PETs to participate in a sandbox.Footnote ¹⁶ In a similar vein, to foster innovation, the government of Japan encouraged firms operating in the country to test Internet of Things (IoT), artificial intelligence (AI), and blockchain technologies.Footnote ¹⁷ The field of IoT can especially benefit from regulatory sandboxes, as there is an increasing number of data-driven social partnerships between public, private, and non-governmental actors based on the collection and aggregation of data from devices (Susha et al., Reference Susha, Rukanova, Ramon Gil-Garcia, Tan and Hernandez2019a).

Although sharing data in a supervised setting within a specified territory for a predetermined period can enable private sector trust, it should be noted that sandboxes can result in a kind of government-granted privilege in favor of participant organizations at the expense of non-participant competitors and newcomers (Poncibò and Zoboli, Reference Poncibò and Zoboli2022). A paradox arises when a sandbox achieves its goal of being attractive enough for firms to want to join but weakens those firms that did not join (Poncibò and Zoboli, Reference Poncibò and Zoboli2022). Despite lowering the entry barriers in innovation industries for newcomers, they can also weaken competition, creating a division between participants and non-participants. Since sandboxes can be considered a form of government support, it could be the case that, when not implemented properly, trust in both data sharing and public institutions is eroded.

3.7. Data stewardship

Data stewardship is an approach to the governance of data that integrates technical and organizational infrastructures in an organization to responsibly collect, store, use, and share data (Rosenbaum, Reference Rosenbaum2010; Stalla-Bourdillon et al., Reference Stalla-Bourdillon, Carmichael and Wintour2021). The hands-on management and care of data on a day-to-day basis can be taken on by the role of a data steward (GovLab, 2019), an agent responsible for the operational aspects of an organization’s data governance, that is, the actual policies, methods, and procedures to manage data (Rosenbaum, Reference Rosenbaum2010; Plotkin, Reference Plotkin and Plotkin2014). The expert group on B2G data sharing referred to data stewards as “champions of data sharing” (European Commission, 2020c, p. 37).

Lessons drawn from the field of medical data donation show that accountability and transparency are key normative trust-enablers to increase data sharing (Vayena et al., Reference Vayena, Haeusermann, Adjekum and Blasimme2018). To ensure accountability, a data steward can be in charge of a system to handle complaints, investigate incidents, and perform other functions for managing conflicts within or across organizations. Meanwhile, stewards can promote transparency by providing clear information about the data, including how it was collected, what it represents, and how it can be used. Furthermore, by adhering to the findability, accessibility, interoperability, and reusability (FAIR) principles for data management (Wilkinson et al., Reference Wilkinson, Dumontier, Aalbersberg, Appleton, Axton, Baak and Mons2016), data stewards can build trust and encourage firms hesitant to share data to engage in this practice (Ada Lovelace Institute, 2021).

The implementation of data stewardship in an organization can be complex and costly. It might require organizational restructuring and extensive training. Aside from a company’s own policies, stewards need to be knowledgeable about the latest data privacy and security regulations. As a new occupation, the role of data stewards can be unclear and confused with other ones present in an organization. Ultimately, it should be avoided that the responsibilities of a data steward are not ever-expanding in a way that they result in a single point of failure.

4.1. Data governance act

As the first legislative act of the European strategy for data, the Data Governance Act recognized that “action at Union level is necessary to increase trust” (European Commission, 2022a, p. 4). The Data Governance Act sets a harmonized regulatory framework for facilitating voluntary data sharing, promoting the rise of data intermediaries and advancing data altruism, a principled approach to data sharing. The regulation entered into force in June 2022 and became applicable in September 2023.

4.2. Data Act

The Data Act is the second legislative proposal of the European strategy for data and introduces mandatory rules for accessing and using industrial data (European Commission, 2022b). The Regulation aims to make data more accessible by giving access rights, addressing unfair contractual terms that arise from vendor lock-in effects and anticompetitive practices, establishing rules for public bodies to access private sector data, and allowing customers to switch between service providers. EU policymakers came to an agreement in June 2023 that will make the Data Act applicable in 2025.