Innovation, Quantum-AI Technology & Law

Blog over Kunstmatige Intelligentie, Quantum, Deep Learning, Blockchain en Big Data Law

Blog over juridische, sociale, ethische en policy aspecten van Kunstmatige Intelligentie, Quantum Computing, Sensing & Communication, Augmented Reality en Robotica, Big Data Wetgeving en Machine Learning Regelgeving. Kennisartikelen inzake de EU AI Act, de Data Governance Act, cloud computing, algoritmes, privacy, virtual reality, blockchain, robotlaw, smart contracts, informatierecht, ICT contracten, online platforms, apps en tools. Europese regels, auteursrecht, chipsrecht, databankrechten en juridische diensten AI recht.

Berichten met de tag 4IR
Beyond IP Innovation Law: The Bigger Picture

Intellectual property is a powerful driver of innovation—but it is not the only one. In Beyond IP Innovation Law: The Bigger Picture, posted as a preprint and forthcoming in the European Media, IP & IT Law Review (MR-Int), Mauritz Kop argues that a serious innovation policy for the Fourth Industrial Revolution must reach past exclusive rights toward a fuller toolkit: prizes, grants, antitrust, commons-based production, open innovation, and a vital public domain.

Sustainable innovation law beyond IP

The essay frames "sustainable innovation law" as the interface between creativity, technology, society, and law—combining information law, antitrust, consumer protection, and fundamental rights with AI, machine learning, big data, quantum computing, CRISPR-Cas9, and virtual reality. Its test is normative: innovation counts as sustainable only when it is ethical and social, economically beneficial, conducive to well-being, and supportive of the environment. Once IP loses its monopoly on the policy imagination, a longer menu of incentive mechanisms—competitions, subsidies, tort law, market regulation, R&D tax incentives—comes into view, and choosing among them becomes the real task of the lawmaker.

Why AI can do without IP incentives

Applied to artificial intelligence, the argument is pointed: the classical justifications for IP are weak when applied to AI, and AI "can do without IP incentives," with narrow exceptions such as a medical AI system whose costly clinical trials might warrant patents or, equally, public subsidy. Human authorship and inventorship remain the normative anchor, and machine output that crosses an "autonomy threshold" should fall into the public domain under a model Kop calls Res Publicae ex Machina. The essay also presses for broad text-and-data-mining freedom—even an articulated right to process data for machine learning—so that training datasets, a prerequisite for supervised learning, do not become an IP chokepoint. This complements his theoretical and empirical work on quantum computing and intellectual property law.

A horizontal-vertical innovation architecture

Because incentives and risks vary by sector and by technology, the paper proposes a horizontal-vertical design: horizontal core rules for all 4IR technologies, plus vertical, risk-based regimes organized around a "pyramid of criticality" from low risk at the base to existential risk at the top. The calibration is physics-aware—an open posture may suit AI, while quantum technology warrants more ab initio control given its potential anthropogenic risks, a precautionary tilt Kop develops further in his work on ethics in the quantum age. Written against the European Commission's April 2021 draft AI Regulation, the essay reads that proposal as a "North Star" and urges that safety norms, interoperability standards, and the Trustworthy AI doctrine be embedded directly into the design of technology, monitored through life-cycle impact assessments. The bigger picture, in short, is an innovation law built for purpose—not the reflexive extension of twentieth-century IP.

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Establishing a Legal-Ethical Framework for Quantum Technology

Yale Law School, Yale Journal of Law & Technology (YJoLT) The Record 2021

New peer reviewed cross-disciplinary Stanford University Quantum & Law research article: “Establishing a Legal-Ethical Framework for Quantum Technology”.

By Mauritz Kop

Citation: Kop, Mauritz, Establishing a Legal-Ethical Framework for Quantum Technology (March 2, 2021). Yale J.L. & Tech. The Record 2021, https://yjolt.org/blog/establishing-legal-ethical-framework-quantum-technology

Download the article here: Kop_Legal-Ethical Framework for Quantum Tech-Yale

Please find a short abstract below:

What is quantum technology?

Quantum technology is founded on general principles of quantum mechanics and combines the counterintuitive physics of the very small with engineering. Particles and energy at the smallest scale do not follow the same rules as the objects we can detect around us in our everyday lives. The general principles, or properties, of quantum mechanics are superposition, entanglement, and tunnelling. Quantum mechanics aims to clarify the relationship between matter and energy, and it describes the building blocks of atoms at the subatomic level.

Raising Quantum Awareness

Quantum technologies are rapidly evolving from hypothetical ideas to commercial realities. As the world prepares for these tangible applications, the quantum community issued an urgent call for action to design solutions that can balance their transformational impact. An important first step to encourage the debate is raising quantum awareness. We have to put controls in place that address identified risks and incentivise sustainable innovation.

Connecting AI and Nanotechnology to Quantum

Establishing a culturally sensitive legal-ethical framework for applied quantum technologies can help to accomplish these goals. This framework can be built on existing rules and requirements for AI. We can enrich this framework further by integrating ethical, legal and social issues (ELSI) associated with nanotechnology. In addition, the unique physical characteristics of quantum mechanics demand universal guiding principles of responsible, human-centered quantum technology. To this end, the article proposes ten guiding principles for the development and application of quantum technology.

Risk-based Quantum Technology Impact Assessment Tools

Lastly, how can we monitor and validate that real world quantum tech-driven implementations remain legal, ethical, social and technically robust during their life cycle? Developing concrete tools that address these challenges might be the answer. Raising quantum awareness can be accomplished by discussing a legal-ethical framework and by utilizing risk-based technology impact assessment tools in the form of best practices and moral guides.

Mauritz Kop is a Stanford Law School TTLF Fellow, Founder of MusicaJuridica and strategic intellectual property lawyer at AIRecht, a leading 4th Industrial Revolution technology consultancy firm based in Amsterdam, The Netherlands. The author is grateful to Mark Brongersma (Department of Materials Science and Engineering at Stanford University), Mark Lemley (Stanford Law School), and Suzan Slijpen (Slijpen Legal) for valuable cross-disciplinary comments on an earlier version of this article. Thank you Ben Rashkovich and the Yale Journal of Law & Technology for excellent suggestions and editorial support. This article benefitted from comments at the World Economic Forum Quantum Computing Ethics Workshop.

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