Blockchain-Based Universal Basic Income: A Comprehensive Analysis of Three Pioneering Examples - Part 2

in EducDAO2 months ago

Part 1

5. Wallet Security: Protecting Digital Basic Income

5.1 The Critical Importance of Wallet Security in UBI Systems

The security of cryptocurrency wallets represents one of the most critical aspects of blockchain UBI implementation, as these digital wallets serve as the primary interface between recipients and their basic income payments. Unlike traditional welfare systems where benefits are distributed through established banking infrastructure with regulatory protections, blockchain UBI systems place the responsibility for securing funds directly on individual recipients. This shift in responsibility creates both opportunities for greater financial autonomy and significant risks that must be carefully managed.

The stakes of wallet security in UBI systems are particularly high because recipients may depend on these payments for essential needs such as food, housing, and healthcare. A security breach that results in the loss of UBI funds could have immediate and severe consequences for vulnerable individuals and families. This reality demands that blockchain UBI systems implement comprehensive security measures and provide extensive education to help recipients protect their digital assets.

The decentralized nature of blockchain systems means that there is typically no central authority that can reverse transactions or recover lost funds, making prevention of security breaches far more important than remediation after the fact. This irreversibility, while providing benefits in terms of censorship resistance and autonomy, also means that security failures can have permanent consequences that cannot be easily corrected.

5.2 Common Wallet Vulnerabilities and Attack Vectors

Research into cryptocurrency wallet security has identified numerous vulnerabilities that pose significant risks to UBI recipients [19]. Private key leakage represents one of the most critical vulnerabilities, as anyone with access to a wallet's private keys can control the associated funds. This leakage can occur through various means, including malware infections, phishing attacks, insecure storage practices, or social engineering attempts targeting wallet credentials.

Replay attacks represent another significant threat to wallet security, where attackers intercept and reuse legitimate transactions to drain wallet funds [20]. These attacks can be particularly dangerous in UBI systems where regular, predictable payments create patterns that attackers can exploit. The automated nature of many UBI distributions may make it difficult for recipients to quickly detect and respond to replay attacks.

Malware specifically designed to target cryptocurrency wallets poses an ongoing threat to UBI recipients, particularly those using hot wallets (online wallets) for convenience. These malicious programs can steal private keys, redirect transactions, or completely compromise wallet security without the user's knowledge [21]. The increasing sophistication of cryptocurrency-targeting malware makes it essential for UBI systems to provide comprehensive security education and tools to help recipients protect themselves.

Phishing attacks targeting wallet credentials have become increasingly common and sophisticated, with attackers creating convincing replicas of legitimate wallet interfaces to steal login credentials and private keys [22]. UBI recipients, who may have limited experience with cryptocurrency systems, can be particularly vulnerable to these attacks if they are not properly educated about security best practices.

5.3 Hot Wallet vs. Cold Storage Considerations

The choice between hot wallets (connected to the internet) and cold storage (offline storage) represents a fundamental security trade-off that UBI systems must address. Hot wallets provide convenience and accessibility that may be essential for recipients who need regular access to their UBI payments, but they also expose funds to online threats and attacks [23]. The frequency of UBI payments and the need for recipients to access funds regularly may make hot wallets necessary despite their security risks.

Cold storage solutions, such as hardware wallets or paper wallets, provide significantly better security by keeping private keys offline and away from potential online threats [24]. However, cold storage can be less accessible and more complex to use, potentially creating barriers for UBI recipients who may lack technical expertise or resources. The cost of hardware wallets may also be prohibitive for some UBI recipients, creating equity issues in access to secure storage solutions.

A hybrid approach that combines hot and cold storage may provide the optimal balance of security and accessibility for UBI systems. Recipients could maintain small amounts in hot wallets for immediate needs while storing larger amounts in cold storage for long-term security. This approach requires careful education and planning to help recipients manage the complexity of multiple storage solutions while maintaining security.

5.4 Security Best Practices for UBI Recipients

Implementing comprehensive security best practices is essential for protecting UBI funds and ensuring recipient safety. Strong password management represents a fundamental security requirement, with passwords of at least 16 characters that are unique for each account and stored securely using password managers [25]. The complexity and uniqueness of passwords become particularly important in UBI systems where recipients may be targeted specifically because of their known participation in income distribution programs.

Two-factor authentication (2FA) provides an additional layer of security that can significantly reduce the risk of unauthorized access to wallet accounts [26]. UBI systems should strongly encourage or require 2FA implementation, preferably using authenticator applications rather than SMS-based systems that can be vulnerable to SIM swapping attacks. The education and support required to help recipients properly implement 2FA represents an important investment in system security.

Seed phrase protection represents one of the most critical security practices for cryptocurrency wallet users. Seed phrases, which can be used to recover wallet access, must be stored offline in secure physical locations, preferably using metal backup cards that can withstand fire and water damage [27]. The importance of seed phrase security cannot be overstated, as loss of seed phrases can result in permanent loss of funds even if other security measures remain intact.

Regular security audits and updates of wallet software and security practices help ensure that recipients remain protected against evolving threats. UBI systems should provide ongoing security education and support to help recipients maintain good security hygiene over time, as security is not a one-time setup but an ongoing responsibility that requires continuous attention.

5.5 System-Level Security Measures

Beyond individual wallet security, UBI systems must implement comprehensive security measures at the system level to protect against large-scale attacks and vulnerabilities. Multi-signature wallet implementations can provide additional security by requiring multiple signatures to authorize transactions, reducing the risk of single points of failure [28]. These systems can be particularly valuable for UBI distribution mechanisms where multiple parties may need to authorize payments.

Smart contract security audits are essential for UBI systems that rely on automated distribution mechanisms. Vulnerabilities in smart contracts can potentially compromise entire UBI systems, making thorough security auditing and testing crucial before deployment [29]. The immutable nature of blockchain systems means that smart contract vulnerabilities cannot be easily corrected after deployment, making prevention through careful auditing essential.

Network-level security measures, including protection against routing attacks and endpoint vulnerabilities, help ensure that UBI systems remain secure even when individual wallets are properly protected [30]. These attacks can intercept or redirect transactions at the network level, potentially compromising UBI payments even when wallet security is maintained.

5.6 Education and Support Infrastructure

The complexity of cryptocurrency wallet security requires comprehensive education and support infrastructure to help UBI recipients protect their funds effectively. Many UBI recipients may have limited experience with digital financial systems, making security education a critical component of successful implementation. This education must be accessible, culturally appropriate, and ongoing to address evolving threats and changing technology.

User experience design plays a crucial role in wallet security, as complex or confusing interfaces can lead to security mistakes that compromise funds. UBI systems should prioritize the development of user-friendly wallet interfaces that make security best practices easy to implement and maintain. The goal should be to make secure practices the default and easiest option for recipients.

Community support networks can provide valuable assistance for UBI recipients navigating wallet security challenges. Peer-to-peer education and support can be particularly effective in building security awareness and helping recipients implement best practices. These networks can also provide rapid response capabilities when security incidents occur, helping to minimize damage and prevent future occurrences.

5.7 Regulatory and Compliance Considerations

Wallet security in UBI systems must also address regulatory and compliance requirements that vary across jurisdictions. Know Your Customer (KYC) and Anti-Money Laundering (AML) regulations may impose specific security requirements that affect how wallets are implemented and managed [31]. These requirements must be balanced against privacy concerns and the need to maintain accessibility for all intended recipients.

Data protection regulations, such as the General Data Protection Regulation (GDPR), impose strict requirements on how personal data associated with wallet accounts is collected, stored, and processed [32]. UBI systems must ensure that their wallet security measures comply with these regulations while still providing effective protection against threats.

The evolving regulatory landscape for cryptocurrency systems means that wallet security requirements may change over time, requiring UBI systems to maintain flexibility and adaptability in their security implementations. Staying current with regulatory developments and ensuring ongoing compliance represents an important ongoing responsibility for UBI system operators.

5.8 Future Developments and Emerging Technologies

The wallet security landscape continues to evolve with new technologies and approaches that may improve security for UBI recipients. Biometric authentication systems can provide more secure and user-friendly alternatives to traditional password-based authentication, though they also raise privacy concerns that must be carefully considered [33]. The integration of biometric systems with UBI wallets could provide enhanced security while maintaining accessibility.

Hardware security modules (HSMs) and secure enclaves provide advanced protection for private keys and sensitive operations, potentially offering enterprise-grade security for individual wallet users [34]. As these technologies become more accessible and affordable, they may provide new options for securing UBI funds without requiring extensive technical expertise from recipients.

Multi-party computation (MPC) and threshold signature schemes represent emerging cryptographic techniques that can distribute wallet control across multiple parties or devices, reducing single points of failure while maintaining usability [35]. These technologies could enable new wallet architectures that provide enhanced security for UBI recipients while remaining accessible and user-friendly.

The development of insurance and recovery mechanisms for cryptocurrency wallets may also provide additional protection for UBI recipients, offering ways to recover from security breaches or technical failures that would otherwise result in permanent fund loss. These mechanisms must be carefully designed to maintain the decentralized principles of blockchain systems while providing meaningful protection for vulnerable users.

5.9 Balancing Security and Accessibility

The ultimate challenge in wallet security for UBI systems lies in balancing robust security measures with the accessibility and usability requirements of universal basic income programs. Security measures that are too complex or burdensome may exclude vulnerable populations who most need UBI support, while insufficient security measures may expose recipients to significant financial risks.

The solution requires a multi-layered approach that combines technical security measures, comprehensive education, ongoing support, and careful user experience design. UBI systems must invest significantly in security infrastructure and education while maintaining focus on the ultimate goal of providing accessible and reliable basic income to all participants.

The success of blockchain UBI systems will ultimately depend on their ability to provide both security and accessibility, ensuring that recipients can safely receive and manage their basic income payments without requiring extensive technical expertise or resources. This balance represents one of the most important design challenges facing blockchain UBI implementations and will likely determine their long-term viability and adoption.

6. Comparative Analysis and Lessons Learned

6.1 Synthesis of Blockchain UBI Approaches

The examination of HiveSBI, FreeOS, and Lift.cash reveals distinct yet complementary approaches to implementing blockchain-based Universal Basic Income systems. Each system addresses different aspects of the UBI challenge while demonstrating the versatility and potential of blockchain technology for social welfare applications. The comparative analysis of these systems provides valuable insights into the design choices, trade-offs, and success factors that characterize effective blockchain UBI implementations.

HiveSBI's focus on content creation and curation demonstrates how UBI systems can integrate productive activities with income distribution, addressing concerns about work incentives while creating value for the broader community. The system's crowdfunded model shows how blockchain technology can enable new forms of economic organization that transcend traditional public-private distinctions, creating sustainable funding mechanisms that do not rely on government resources or taxation.

FreeOS's emphasis on democratic governance and universal access illustrates how blockchain UBI systems can embody principles of economic democracy and community self-determination. The weekly voting mechanism creates ongoing engagement that goes beyond simple benefit receipt, transforming participants from passive beneficiaries into active stakeholders in their economic system. This approach demonstrates the potential for blockchain UBI to serve not only as income distribution but as a platform for broader democratic participation.

Lift.cash's application of game theory principles shows how sophisticated incentive design can address traditional concerns about UBI while creating positive feedback loops that benefit both individuals and communities. The system's emphasis on cooperation and mutual benefit demonstrates how blockchain technology can enable economic arrangements that align individual and collective interests rather than treating them as competing objectives.

6.2 Common Success Factors

Despite their different approaches, the three blockchain UBI systems share several common characteristics that appear to contribute to their success and sustainability. All three systems emphasize community governance and democratic participation, giving recipients meaningful input into how their economic systems operate. This participatory approach appears to increase engagement and commitment while ensuring that systems evolve in response to community needs.

Transparency represents another common success factor, with all three systems leveraging blockchain technology to provide clear visibility into how funds are distributed and decisions are made. This transparency builds trust and accountability while enabling community monitoring and oversight that would be difficult to achieve in traditional welfare systems.

The integration of economic incentives with social objectives appears crucial for sustainability, as all three systems create value through participant engagement rather than simply redistributing existing resources. This value creation helps ensure long-term viability while addressing concerns about the economic impact of UBI programs.

6.3 Addressing Traditional UBI Criticisms

The blockchain UBI systems examined provide practical responses to many traditional criticisms of Universal Basic Income proposals. Concerns about work incentives are addressed through different mechanisms: HiveSBI integrates income with productive content creation, FreeOS requires ongoing participation in democratic governance, and Lift.cash uses game theory to align individual contributions with community benefits.

Questions about funding sustainability are addressed through innovative mechanisms that create value rather than simply redistributing existing resources. The crowdfunded model of HiveSBI, the democratic monetary policy of FreeOS, and the cooperative economics of Lift.cash all demonstrate alternatives to traditional taxation-based funding that may be more politically feasible and economically sustainable.

Administrative efficiency concerns are addressed through automation and decentralization that reduce overhead costs while increasing transparency and accountability. The smart contract-based distribution mechanisms used by these systems eliminate much of the bureaucratic infrastructure required by traditional welfare programs while providing better monitoring and evaluation capabilities.

6.4 Integration with Academic Framework

The practical implementations examined align closely with the theoretical framework presented in the comprehensive course "Advantages and Inconvenients of a Universal Basic Income Distributed by XPRnetwork and Governed by a DAO" [36]. This course, available on the Hive blockchain platform, provides a structured academic analysis of blockchain UBI that complements the real-world examples discussed in this article.

The course's examination of UBI principles, blockchain technology integration, and DAO governance structures provides theoretical grounding for understanding why the three blockchain UBI systems have achieved success. The course's analysis of economic impacts, social benefits, and governance advantages aligns with the observed characteristics of HiveSBI, FreeOS, and Lift.cash, suggesting that these systems embody many of the theoretical advantages identified in academic analysis.

The course's discussion of challenges and disadvantages also provides context for understanding the limitations and ongoing development needs of blockchain UBI systems. Issues such as financial sustainability, behavioral changes, and technical challenges identified in the course are reflected in the real-world experiences of the systems examined, demonstrating the value of combining theoretical analysis with practical implementation.

The course's focus on XPRnetwork (Proton blockchain) is particularly relevant to FreeOS, which operates on this platform and demonstrates many of the advantages discussed in the academic framework. The alignment between theoretical analysis and practical implementation provides confidence in both the academic understanding of blockchain UBI and the real-world viability of these systems.

6.5 Scalability and Adoption Challenges

While the three blockchain UBI systems demonstrate successful implementation at their current scales, questions remain about their ability to scale to serve larger populations. The technical infrastructure, governance mechanisms, and economic models that work for thousands of participants may face different challenges when serving millions or billions of people.

Network scalability represents a fundamental challenge, as blockchain systems must be able to process the transaction volumes required for global-scale UBI distribution. The DPOS consensus mechanisms used by many of these systems provide advantages in terms of speed and efficiency, but even these improved systems may face limitations when serving very large populations.

Governance scalability presents another challenge, as the democratic participation that characterizes successful blockchain UBI systems may become more difficult to maintain as communities grow larger and more diverse. Maintaining meaningful participation and avoiding governance capture by special interests will require careful attention to institutional design and community development.

6.6 Regulatory and Political Considerations

The success of blockchain UBI systems will ultimately depend not only on their technical and economic viability but also on their ability to navigate complex regulatory and political environments. The decentralized nature of these systems may conflict with existing regulatory frameworks that assume centralized control and oversight of financial systems.

The relationship between blockchain UBI systems and traditional welfare programs remains unclear, with questions about whether these systems should complement, replace, or operate independently of existing social safety nets. The political feasibility of blockchain UBI may depend on its ability to demonstrate clear advantages over traditional approaches while addressing legitimate concerns about security, accountability, and equity.

International coordination and cooperation may be necessary for blockchain UBI systems to achieve their full potential, particularly for systems that aim to serve global populations or operate across national boundaries. The development of international standards and frameworks for blockchain UBI could help address regulatory uncertainty while ensuring that systems meet necessary requirements for security and accountability.

7. Future Implications and Recommendations

7.1 Technological Development Priorities

The continued evolution of blockchain UBI systems will require focused development in several key areas. Identity verification solutions that balance privacy, security, and accessibility represent a critical priority, as current approaches may not scale to serve global populations while maintaining the decentralized principles that make blockchain UBI attractive.

User experience improvements are essential for broader adoption, as the complexity of current blockchain systems may exclude many potential beneficiaries who lack technical expertise or resources. The development of more intuitive interfaces and simplified security practices could significantly expand the accessibility of blockchain UBI systems.

Interoperability between different blockchain UBI systems will become increasingly important as multiple systems develop and mature. The ability for individuals to participate in multiple systems or transfer between systems could provide greater flexibility and choice while preventing vendor lock-in or system dependence.

7.2 Policy and Regulatory Recommendations

Policymakers should consider developing regulatory frameworks that accommodate the unique characteristics of blockchain UBI systems while ensuring necessary protections for participants. These frameworks should balance innovation and experimentation with consumer protection and system security, avoiding overly restrictive approaches that could stifle beneficial development.

International cooperation on blockchain UBI standards and regulations could help ensure that systems can operate across borders while meeting necessary requirements for security and accountability. The development of international frameworks for blockchain identity verification, cross-border payments, and system interoperability could facilitate the growth of global blockchain UBI systems.

Pilot programs and experimental implementations should be encouraged and supported to generate additional evidence about the effectiveness and viability of blockchain UBI approaches. These programs should include rigorous evaluation and monitoring to identify best practices and address challenges before larger-scale implementation.

7.3 Research and Development Needs

Continued research into the economic impacts of blockchain UBI systems is needed to understand their effects on work incentives, economic growth, and income distribution. Long-term studies of existing systems could provide valuable evidence for policy decisions and system design improvements.

Technical research into scalability, security, and usability improvements could help address current limitations and enable broader adoption of blockchain UBI systems. This research should focus on practical solutions that can be implemented in real-world systems rather than purely theoretical advances.

Social and behavioral research into how people interact with blockchain UBI systems could inform design improvements and help ensure that systems serve their intended purposes effectively. Understanding how different populations use and benefit from these systems could help optimize their design and implementation.

7.4 Implications for Traditional Welfare Systems

The success of blockchain UBI systems may have significant implications for traditional welfare programs and social safety nets. The demonstrated advantages of blockchain approaches in terms of efficiency, transparency, and democratic participation could pressure traditional systems to adopt similar innovations or risk becoming obsolete.

The integration of blockchain technology with existing welfare systems could provide a pathway for gradual transition rather than wholesale replacement. Hybrid approaches that combine the benefits of blockchain technology with the established infrastructure and political support of traditional systems may prove most feasible in many contexts.

The lessons learned from blockchain UBI systems about community engagement, democratic governance, and incentive design could inform improvements to traditional welfare programs even if full blockchain adoption is not feasible. These insights could help make traditional systems more effective and responsive to recipient needs.

8. Conclusion

The examination of HiveSBI, FreeOS, and Lift.cash demonstrates that blockchain-based Universal Basic Income is not merely a theoretical possibility but a practical reality with significant potential for addressing economic inequality and social welfare challenges. These systems have successfully implemented sustainable, transparent, and democratically governed income distribution mechanisms that address many of the traditional criticisms and limitations of UBI proposals.

The analysis reveals that blockchain technology offers unique advantages for UBI implementation, including reduced administrative costs, increased transparency, enhanced democratic participation, and innovative funding mechanisms that do not rely solely on traditional taxation. The DPOS consensus mechanism emerges as particularly well-suited for UBI applications, providing the scalability, energy efficiency, and democratic governance that these systems require.

However, significant challenges remain, particularly in the areas of identity verification, wallet security, and scalability. The identity problem represents a fundamental tension between the privacy and decentralization principles of blockchain technology and the verification requirements of UBI systems. Wallet security concerns highlight the need for comprehensive education and support infrastructure to help recipients protect their digital assets. Scalability questions raise important issues about the ability of current systems to serve global populations.

The success of existing blockchain UBI systems provides valuable lessons for future implementations and policy development. The importance of community governance, transparent operations, and integrated incentive structures emerges clearly from the comparative analysis. The alignment between practical implementations and theoretical frameworks, as demonstrated by the connection to academic coursework on blockchain UBI, provides confidence in both the understanding and viability of these approaches.

The future of blockchain UBI will depend on continued technological development, thoughtful regulatory approaches, and ongoing experimentation and evaluation. The potential benefits are significant enough to warrant continued investment and attention, while the challenges are substantial enough to require careful planning and execution.

As societies worldwide grapple with increasing economic inequality, technological unemployment, and the need for more responsive and democratic institutions, blockchain UBI systems offer a promising pathway forward. The examples examined in this analysis demonstrate that alternative economic arrangements are not only possible but practical, providing hope for more equitable and sustainable economic systems in the digital age.

The transformation of social welfare through blockchain technology represents more than a technical upgrade to existing systems. It embodies a fundamental reimagining of how societies can organize economic distribution, moving from centralized bureaucratic control to decentralized community governance. This shift has profound implications for economic democracy, social welfare policy, and the relationship between individuals and institutions in the digital age.

The success of HiveSBI, FreeOS, and Lift.cash proves that blockchain UBI is ready to move from experimental implementation to broader adoption and policy consideration. The lessons learned from these pioneering systems provide a foundation for future development and scaling, while the challenges identified highlight areas where continued innovation and attention are needed.

As we look toward the future, blockchain UBI systems offer a compelling vision of economic organization that combines technological innovation with social welfare objectives, democratic governance with economic efficiency, and individual autonomy with community solidarity. The realization of this vision will require continued collaboration between technologists, policymakers, social welfare advocates, and communities themselves, but the potential rewards justify the effort required.

The blockchain UBI revolution has begun, and its impact on economic and social organization may prove to be as significant as the broader blockchain revolution itself. The three systems examined in this analysis represent just the beginning of what may become a fundamental transformation in how societies provide economic security and opportunity for all their members.


9. References

[1] Hive SBI Documentation. "How Does it Work?" Available at: https://docs.hivesbi.com/overview/how-does-it-work

[2] FreeOS. "Welcome to Freeos." Available at: https://freeos.io

[3] Lift Cash. "Welcome to the Lift Cash Revolution!" Available at: https://lift.cash

[4] Jamal, A., Helmi, R. A. A., & Syahirah, A. S. N. (2019). Blockchain-based identity verification system. 2019 IEEE 9th International Conference on System Engineering and Technology (ICSET).

[5] Saravanan, V., Sumalatha, A., & Reddy, D. N. (2024). Exploring Decentralized Identity Verification Systems Using Blockchain Technology: Opportunities and Challenges. 2024 5th IEEE International Conference on Electrical, Computer and Communication Technologies (ICECCT).

[6] Precisehire. (2024). A Comprehensive Guide to Blockchain Identity Verification. Available at: https://precisehire.com/guide-to-blockchain-identity-verification/

[7] Bachani, V., & Bhattacharjya, A. (2022). Preferential delegated proof of stake (PDPoS)—modified DPoS with two layers towards scalability and higher TPS. Symmetry, 15(1), 4.

[8] IDS Alliance. (2023). Compliance Strategies for Blockchain-Based Identity Management Solutions. Available at: https://www.idsalliance.org/blog/compliance-strategies-for-blockchain-based-identity-management-solutions/

[9] 1Kosmos. (2024). Blockchain Identity Management: A Complete Guide. Available at: https://www.1kosmos.com/blockchain/blockchain-identity-management-a-complete-guide-2/

[10] Ledger Academy. (2023). What Is Delegated Proof-of-Stake (DPoS)? Available at: https://www.ledger.com/academy/what-is-delegated-proof-of-stake-dpos

[11] Saad, S. M. S., & Radzi, R. Z. R. M. (2021). Comparative analysis of the blockchain consensus algorithm between proof of stake and delegated proof of stake. 2021 International Conference on Data Science and Its Applications (ICoDSA).

[12] Medium. (2025). Comparing Consensus Mechanism: PoW vs. PoS vs. DPoS Which One Powers the Future of Blockchain. Available at: https://medium.com/@okonidorenyin73/comparing-consensus-mechanism-pow-vs-pos-vs-dpos-which-one-powers-the-future-of-blockchain-2dfd387cf7bb

[13] Rapid Innovation. Understanding Delegated Proof of Stake (DPoS). Available at: https://www.rapidinnovation.io/post/what-is-delegated-proof-of-stake-dpos

[14] LimeChain. (2022). Delegated Proof Of Stake (DPoS) Explained. Available at: https://limechain.tech/blog/delegated-proof-of-stake-explained

[15] Medium. (2020). The Basics of TRON's DPoS Consensus Algorithm. Available at: https://medium.com/tronnetwork/the-basics-of-trons-dpos-consensus-algorithm-db12c52f1e03

[16] Saad, S. M. S., & Radzi, R. Z. R. M. (2020). Comparative review of the blockchain consensus algorithm between proof of stake (pos) and delegated proof of stake (dpos). International Journal of Innovative Computing, 10(2).

[17] Halborn. (2022). Blockchain Consensus Mechanisms Compared. Available at: https://www.halborn.com/blog/post/blockchain-consensus-mechanisms-compared

[18] Xu, G., Liu, Y., & Khan, P. W. (2019). Improvement of the DPoS consensus mechanism in blockchain based on vague sets. IEEE Transactions on Industrial Informatics, 16(6), 4252-4259.

[19] Erinle, Y., Kethepalli, Y., Feng, Y., & Xu, J. (2023). Sok: Design, vulnerabilities, and security measures of cryptocurrency wallets. arXiv preprint arXiv:2307.12874.

[20] Prashar, D. (2021). Analysis on blockchain vulnerabilities & attacks on wallet. 2021 3rd International Conference on Advances in Computing, Communication Control and Networking (ICAC3N).

[21] Suratkar, S., Shirole, M., & Bhirud, S. (2020). Cryptocurrency wallet: A review. 2020 4th International Conference on Intelligent Computing and Control Systems (ICICCS).

[22] 101 Blockchains. (2025). Top 5 Blockchain Security Issues in 2025. Available at: https://101blockchains.com/blockchain-security-issues/

[23] OSL. (2025). Can the Blockchain Be Hacked? Exploring Security Risks. Available at: https://www.osl.com/hk-en/academy/article/can-the-blockchain-be-hacked-exploring-security-risks

[24] ECCU. A Cybersecurity Guide to Safely Storing Your Cryptocurrency. Available at: https://www.eccu.edu/blog/cybersecurity/cryptocurrency-cybersecurity-how-to-store-your-crypto-safely/

[25] Coinbase. How to keep your crypto secure. Available at: https://www.coinbase.com/learn/crypto-basics/how-to-secure-crypto

[26] Algorand. A guide to wallet security & best practices. Available at: https://algorand.co/learn/wallet-security-best-practices

[27] Trakx. (2024). Crypto Security: Best Practices To Protect Digital Assets. Available at: https://trakx.io/resources/insights/crypto-security/

[28] Nowroozi, E., Seyedshoari, S., Mekdad, Y., & Savaş, E. (2022). Cryptocurrency wallets: assessment and security. In Blockchain for Cybersecurity in Cyber-Physical Systems (pp. 1-28). Springer.

[29] LevelBlue. (2024). Deep Dive into Blockchain Security: Vulnerabilities and Protective Measures. Available at: https://levelblue.com/blogs/security-essentials/deep-dive-into-blockchain-security-vulnerabilities-and-protective-measures

[30] Advisense. (2025). Summary of Cryptocurrency and Blockchain Risks, Protections, and Best Practices. Available at: https://advisense.com/2025/03/13/cryptocurrency-and-blockchain-risks/

[31] Zamani, E., He, Y., & Phillips, M. (2020). On the security risks of the blockchain. Journal of Computer Information Systems, 60(6), 495-506.

[32] Shivale, N. M., Mahalle, P., Bhandari, G. M., & Patil, S. (2025). Detailed Review on Enabling Secure and Seamless Crypto Wallet: A Blockchain Solution. Cureus, 17(1).

[33] CoinTracker. (2025). Crypto wallet hygiene: The basics of crypto wallet security. Available at: https://www.cointracker.io/blog/crypto-wallet-hygiene

[34] Cryptohopper. Cryptocurrency and Blockchain Security and Vulnerabilities. Available at: https://www.cryptohopper.com/blog/cryptocurrency-and-blockchain-security-and-vulnerabilities-1224

[35] ResearchGate. (2025). Security Vulnerabilities of Cryptocurrency Wallets - A Systematic Review. Available at: https://www.researchgate.net/publication/389965491_Security_Vulnerabilities_of_Cryptocurrency_Wallets_-A_Systematic_Review

[36] Chrisaiki. (2024). Advantages and inconvenients of a Universal Basic Income distributed on the XPRnetwork and governed by a DAO. Hive Blog. Available at: https://hive.blog/hive-138376/@chrisaiki/advantages-and-inconvenients-of-a


This article represents a comprehensive analysis of blockchain-based Universal Basic Income systems based on current implementations and research. The views expressed are those of the author and do not constitute financial or investment advice. Readers should conduct their own research and consult with qualified professionals before participating in any blockchain UBI systems.

image.png

Sort:  

Oh boy… this is going to be a long time in the comfy chair this evening ;-)
Thanks for sharing!

It s a life long UBI, so take your time to subscribe

Will definitely do so! Thanks ;-)

A UBI backed by a bitcoin fork ! Great idea !!!
Sorry i missed that.