The European Data Protection Board and the European Data Protection Supervisor have backed proposals to strengthen the EU cybersecurity law while safeguarding personal data. Their joint opinion addresses reforms to the Cybersecurity Act and updates to the NIS2 Directive.
Regulators support plans to reinforce the mandate of the European Union Agency for Cybersecurity and expand cybersecurity certification across digital supply chains. Clearer coordination between ENISA and privacy authorities is seen as essential for consistent oversight.
Advice also calls for limits on the processing of personal data and for prior consultation on technical rules affecting privacy. Certification schemes should align with the GDPR and help organisations demonstrate compliance.
Additional recommendations include broader cybersecurity skills training and a single EU entry point for personal data breach notifications. Proposed changes would also classify digital identity wallet providers as essential entities under the EU security rules.
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A major expansion of its activities has been outlined by OpenAI Foundation, signalling a broader effort to ensure AI delivers tangible benefits while addressing emerging risks.
The organisation plans to invest at least $1 billion over the next year, forming part of a wider $25 billion commitment focused on disease research and AI resilience.
OpenAI Foundation frames such potential as central to its mission, while recognising that more capable systems introduce complex societal and safety challenges that require coordinated responses.
Initial programmes prioritise life sciences, including research into Alzheimer’s disease, expanded access to public health data, and accelerated progress on high-mortality conditions.
Parallel efforts examine the economic impact of automation, with engagement across policymakers, labour groups and businesses aimed at developing practical responses to labour market disruption.
A dedicated resilience strategy addresses risks linked to advanced AI systems, including safety standards, biosecurity concerns and the protection of children and young users.
Alongside community-focused funding, the OpenAI Foundation’s initiative reflects a dual objective: enabling innovation rather than leaving societies exposed to technological disruption.
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Over the past few years, we have witnessed a rapid shift in the way data is stored and processed across businesses, organisations, and digital systems.
What we are increasingly seeing is that AI itself is changing form as computation shifts away from centralised cloud environments to the network edge. Such a shift has come to be known as edge AI.
Edge AI refers to the deployment of machine learning models directly on local devices such as smartphones, sensors, industrial machines, and autonomous systems.
Instead of transmitting data to remote servers for processing, analysis is performed on the device itself, enabling faster responses and greater control over sensitive information.
Such a transition marks a significant departure from earlier models of AI deployment, where cloud infrastructure dominated both processing and storage.
From centralised AI to edge intelligence
Traditional AI systems used to rely heavily on centralised architectures. Data collected from users or devices would be transmitted to large-scale data centres, where powerful servers would perform computations and generate outputs.
Such a model offered efficiency, scalability, and easier security management, as protection efforts could be concentrated within controlled environments.
Centralisation allowed organisations to enforce uniform security policies, deploy updates rapidly, and monitor threats from a single vantage point. However, reliance on cloud infrastructure also introduced latency, bandwidth constraints, and increased exposure of sensitive data during transmission.
Edge AI introduces a fundamentally different paradigm. Moving computation closer to the data source reduces the reliance on continuous connectivity and enables real-time decision-making.
Such decentralisation represents not merely a technical shift but a reconfiguration of the way digital systems operate and interact with their environments.
Advantages of edge AI
Reduced latency and real-time processing
Latency is significantly reduced when computation occurs locally. Edge systems are particularly valuable in time-sensitive applications such as autonomous vehicles, healthcare monitoring, and industrial automation, where delays can have critical consequences.
Enhanced privacy and data control
Privacy improves when sensitive data remains on-device instead of being transmitted across networks. Such an approach aligns with growing concerns around data protection, regulatory compliance, and user trust.
Operational resilience
Edge systems can continue functioning even when network connectivity is limited or unavailable. In remote environments or critical infrastructure, independence from central servers ensures service continuity.
Bandwidth efficiency and cost reduction
Bandwidth consumption is decreased because only processed insights are transmitted, not raw data. Such efficiency can translate into reduced operational costs and improved system performance.
Personalisation and context awareness
Devices can adapt to user behaviour in real time, learning from local data without exposing sensitive information externally. In healthcare, personalised diagnostics can be performed directly on wearable devices, while in manufacturing, predictive maintenance can occur on-site.
The dark side of edge AI
However, the shift towards edge computing introduces profound cybersecurity challenges. The most significant of these is the expansion of the attack surface.
Instead of a limited number of well-protected data centres, organisations must secure vast networks of distributed devices. Each endpoint represents a potential entry point for malicious actors.
The scale and diversity of edge deployments complicate efforts to maintain consistent security standards. Security is no longer centralised but dispersed, increasing the likelihood of vulnerabilities and misconfigurations.
Let’s take a closer look at some other challenges of edge AI.
Physical vulnerabilities and device exposure
Edge devices often operate in uncontrolled environments, making physical access a major risk. Attackers may tamper with hardware, extract sensitive information, or reverse engineer AI models.
Model extraction attacks allow adversaries to replicate proprietary algorithms, undermining intellectual property and enabling further exploitation. Such risks are significantly more pronounced compared to cloud systems, where physical access is tightly controlled.
Software constraints and patch management challenges
Many edge devices rely on embedded systems with limited computational resources. Such constraints make it difficult to implement robust security measures, including advanced encryption and intrusion detection.
Patch management becomes increasingly complex in decentralised environments. Ensuring that millions of devices receive timely updates is a significant challenge, particularly when connectivity is inconsistent or when devices operate in remote locations.
Breakdown of traditional security models
The decentralised nature of edge AI undermines conventional perimeter-based security frameworks. Without a clearly defined boundary, traditional approaches to network defence lose effectiveness.
Each device must be treated as an independent security domain, requiring authentication, authorisation, and continuous monitoring. Identity management becomes more complex as the number of devices grows, increasing the risk of misconfiguration and unauthorised access.
Data integrity and adversarial threats
As we mentioned before, edge devices rely heavily on local data inputs to make decisions. As a result, manipulated inputs can lead to compromised outcomes. Adversarial attacks, in which inputs are deliberately altered to deceive machine learning models, represent a significant threat.
In safety-critical systems, such manipulation can lead to severe consequences. Altered sensor data in industrial environments may disrupt operations, while compromised vision systems in autonomous vehicles may produce dangerous behaviour.
Supply chain risks in edge AI
Edge AI systems depend on a combination of hardware, software, and pre-trained models sourced from multiple vendors. Each component introduces potential vulnerabilities.
Attackers may compromise supply chains by inserting backdoors during manufacturing, distributing malicious updates, or exploiting third-party software dependencies. The global nature of technology supply chains complicates efforts to ensure trust and accountability.
Energy constraints and security trade-offs
Edge devices are often designed with efficiency in mind, prioritising performance and power consumption. Security mechanisms such as encryption and continuous monitoring require computational resources that may be limited.
As a result, security features may be simplified or omitted, increasing exposure to cyber threats. Balancing efficiency with robust protection remains a persistent challenge.
Cyber-physical risks and real-world impact
The integration of edge AI into cyber-physical systems elevates the consequences of security breaches. Digital manipulation can directly influence physical outcomes, affecting safety and infrastructure.
Compromised healthcare devices may produce incorrect diagnoses, while disrupted transportation systems may lead to accidents. In energy networks, attacks could impact entire regions, highlighting the broader societal implications of edge AI vulnerabilities.
Regulatory and governance challenges
Existing regulatory frameworks have been largely designed for centralised systems and do not fully address the complexities of decentralised architectures. Questions regarding liability, accountability, and enforcement remain unresolved.
Organisations may struggle to implement effective security practices without clear standards. Policymakers face the challenge of developing regulations that reflect the distributed nature of edge AI systems.
Towards a secure edge AI ecosystem
Addressing all these challenges requires a multi-layered and adaptive approach that reflects the complexity of edge AI environments.
Hardware-level protections, such as secure enclaves and trusted execution environments, play a critical role in safeguarding sensitive operations from physical tampering and low-level attacks.
Encryption and secure boot processes further strengthen device integrity, ensuring that both data and models remain protected and that unauthorised modifications are prevented from the outset.
At the software level, continuous monitoring and anomaly detection are essential for identifying threats in real time, particularly in distributed systems where central oversight is limited.
Secure update mechanisms must also be prioritised, ensuring that patches and security improvements can be deployed efficiently and reliably across large networks of devices, even in conditions of intermittent connectivity.
Without such mechanisms, vulnerabilities can persist and spread across the ecosystem.
Rather than relying entirely on decentralised or centralised models, organisations are distributing workloads strategically, keeping latency-sensitive and privacy-critical processes on the edge while maintaining centralised oversight, analytics, and security coordination in the cloud.
Such an approach allows organisations to balance performance and control, while enabling more effective threat detection and response through aggregated intelligence.
Security must also be embedded into system design from the outset, rather than treated as an additional layer to be applied after deployment. A proactive approach to risk assessment, combined with secure development practices, can significantly reduce vulnerabilities before systems are operational.
In conclusion, we have seen how the rise of edge AI represents a pivotal shift in both AI and cybersecurity. Decentralisation enables faster, more private, and more resilient systems, yet it also creates a fragmented and dynamic attack surface.
The advantages we have outlined are compelling, but they also introduce additional layers of complexity and risk. Addressing these challenges requires a comprehensive approach that combines technological innovation, regulatory development, and organisational awareness.
Only through such coordinated efforts can the benefits of edge AI be realised while ensuring that security, trust, and safety remain intact in an increasingly decentralised digital landscape.
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Binance has launched the Beta version of Binance Ai Pro, an advanced AI trading assistant built on the OpenClaw ecosystem. Available from 25 March 2026 at 07:00 UTC, the service can be activated via the Binance App on Android or through the Binance web homepage, with iOS support coming soon.
The platform offers one-click activation, automatic cloud setup, and integration with multiple AI models, including ChatGPT, Claude, Qwen, MiniMax, and Kimi. Users receive a dedicated Binance Ai Pro Account, isolated from their main account to minimise operational risks.
Funds can be manually transferred to the AI account for trading, asset monitoring, and strategy execution, covering spot and perpetual contracts, leveraged borrowing, market analysis, token distribution queries, and custom strategies.
Beta users will pay $9.99 per month, with a 7-day free trial. Activation grants 5 million usage credits each month for accessing advanced AI models, with automatic fallback to basic models once credits are exhausted.
Security measures ensure that AI API keys have no withdrawal permissions and operate within strict, authorised scopes.
Binance plans to expand the platform with additional credits, enriched Binance Skills, and user-customisable third-party AI tools. The company warns that AI trading carries risks and urges users to trade responsibly while giving feedback to enhance the platform.
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The European Commission and Australia have announced the adoption of a Security and Defence Partnership alongside the conclusion of negotiations for a free trade agreement.
They have also agreed to launch formal negotiations for Australia’s association with Horizon Europe, the European Union’s research and innovation funding programme.
The Security and Defence Partnership establishes a framework for cooperation on shared strategic priorities. It includes coordination on crisis management, maritime security, cybersecurity, and countering hybrid threats and foreign information manipulation.
A partnership that also includes cooperation on emerging and disruptive technologies, including AI, as well as space security, non-proliferation, and disarmament.
The free trade agreement provides for the removal of over 99% of tariffs on the EU goods exports to Australia and expands access to services, government procurement, and investment opportunities.
It includes provisions on data flows that prohibit data localisation requirements and supports supply chain resilience through improved access to critical raw materials.
The EU exports are expected to increase by up to 33% over the next decade.
The agreement incorporates commitments on trade and sustainable development, including labour rights, environmental standards, and climate obligations aligned with the Paris Agreement.
The negotiated texts will undergo the EU internal procedures before submission to the Council for signature and conclusion, followed by European Parliament consent and ratification by Australia before entry into force.
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Efforts to strengthen technological competitiveness in Europe focus on advancing AI capabilities, developing new forms of talent and improving access to investment.
Discussions at the CTx Tech Experience in Seville highlighted a growing consensus that innovation must scale more effectively if the region is to compete globally.
Participants emphasised that Europe continues to face structural challenges, including fragmented markets, regulatory complexity and limited capital for high-growth companies.
These constraints have made it more difficult for startups to expand, prompting calls for stronger coordination between public institutions and private investors.
AI is increasingly viewed as the foundation of the transformation. Industry leaders pointed to the emergence of new business opportunities driven by AI, alongside the need to translate innovation into scalable commercial outcomes.
At the same time, labour market dynamics are shifting towards hybrid skillsets that combine technical expertise with business understanding and critical thinking.
In such a context, strengthening Europe’s innovation capacity is seen as essential to competing with global powers such as the US and China.
The Trump Administration unveiled a national AI framework to boost competitiveness, security, and benefits for Americans. The plan seeks to ensure that AI innovation supports all citizens while maintaining public trust in the technology.
Six key objectives form the foundation of the policy. These include protecting children online, empowering parents with tools to manage digital safety, strengthening communities and small businesses, respecting intellectual property, defending free speech, and fostering innovation.
The framework also prioritises workforce development to prepare Americans for AI-driven job opportunities.
Federal uniformity is considered critical to the plan’s success. The Administration warns that a patchwork of state regulations could stifle innovation and reduce the United States’ ability to lead globally.
Congress is encouraged to collaborate closely to implement the framework nationwide.
The Administration emphasises that the United States must lead the AI race, ensuring the benefits of AI reach all Americans while addressing challenges such as privacy, security, and equitable access to opportunities.
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AI-generated deepfake abuse is emerging as a serious global threat, with women and girls disproportionately affected by non-consensual and harmful digital content. Advances in AI make it easy to create manipulated content that can spread across platforms within minutes and reach millions.
Data highlights the scale of the issue. The vast majority of deepfake content online consists of explicit material, overwhelmingly targeting women.
Accessible and often free tools have lowered the barrier to entry, enabling widespread misuse. At the same time, the ability to endlessly replicate and share such content makes removal nearly impossible once it is published.
Legal responses remain fragmented, with many pre-existing laws leaving gaps in addressing AI-generated deepfake abuse. Enforcement issues, such as cross-border challenges and limited digital forensics capabilities, make it unlikely that perpetrators will face consequences.
Pressure is mounting on governments and technology platforms to act. Calls for reform include clearer legislation, faster obligations to remove content, improved law enforcement capabilities, and stronger support systems for victims.
Without coordinated global action, deepfake abuse is set to expand alongside the technologies enabling it.
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Telefónica Tech has partnered with three European firms to bring AI and quantum computing closer together. The collaboration aims to improve how advanced models are developed and deployed across different environments.
The initiative brings together Qilimanjaro Quantum Tech, Multiverse Computing and Qcentroid. Their combined expertise is expected to support more efficient, compact and locally deployable AI systems.
Quantum computing is seen as a way to reduce the heavy processing demands of large AI models. Faster computation could yield more accurate results while reducing the time required to solve complex problems.
Each partner contributes specialised capabilities, from quantum hardware and algorithms to software platforms and orchestration tools. These technologies could support applications such as simulations, edge AI and rapid prototyping.
Telefónica Tech is also strengthening its role in integrating AI and quantum solutions for enterprise clients. The move reflects a broader push to build scalable, sovereign and next-generation digital infrastructure in Europe.
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The FBI’s New York Field Office has warned that fraudulent tokens impersonating the agency are being airdropped to Tron wallets, with recipients threatened with ‘total block’ of assets unless they submit personal information via phishing sites.
At least 728 wallets were affected, some holding over US$1 million in USDT, when the warning was issued on 19 March.
The scam warns users that their wallets are ‘under investigation’ and instructs them to complete an online anti-money-laundering form. The FBI urged crypto holders to ignore these messages and avoid entering any personal data on linked websites.
Attackers exploit Tron for its fast and low-cost transactions, using bots to distribute tokens widely and generate spoofed addresses.
Impersonation scams have surged dramatically in 2025, with Chainalysis reporting a 1,400% year-over-year increase. Total crypto fraud losses are estimated at US$17 billion, with AI-assisted scams proving far more profitable than traditional schemes.
The FBI previously ran a blockchain sting using Ethereum tokens, resulting in indictments and the seizure of millions in assets.
The bureau encourages anyone who receives the fake FBI tokens to report the incident to the Internet Crime Complaint Centre to help combat ongoing crypto fraud.
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