Next-generation AI and quantum security integration through SEALSQ, utilizing WISeAI'sdecentralized framework.
In a groundbreaking move, SEALSQ, a leading company in semiconductors, PKI, and post-quantum technology, is integrating WISeAI's decentralized AI model into its quantum platform. This integration is set to significantly impact the development and deployment of AI, enhancing both its security and functionality.
WISeAI, a machine-learning tool, is renowned for its ability to process vast amounts of threat intelligence data, including known attack patterns, malware signatures, and security vulnerabilities. It assists in prioritizing security measures and optimizing resource allocation based on the likelihood and potential impact of various cyberattacks.
One of the key features of WISeAI.IO 2.0 is its ability to analyse large volumes of data related to certificate issuance, revocation, and usage. This analysis establishes a behavioural baseline and flags potential security threats. WISeAI.IO 2.0 is also designed to monitor behaviour and activities within a PKI system, identifying abnormal patterns or suspicious activities.
The integration strengthens the security of AI systems by ensuring that they are secured with robust cryptographic technologies. This is crucial in preventing unauthorized access and manipulation of AI data, which can compromise the integrity of AI-driven decision-making processes.
SEALSQ's focus on quantum security technologies, such as post-quantum cryptography (PQC), ensures that AI systems are protected against future quantum threats. As quantum computers become more powerful, current encryption methods like RSA will be vulnerable to attacks. PQC algorithms integrated into AI systems provide a quantum-resistant framework, safeguarding AI data and communications.
The integration also aligns with NIST and NSA directives on post-quantum standards, future-proofing SEALSQ's AI systems against emerging quantum threats. This proactive approach to security enhances trust in AI applications, especially in high-stakes environments like finance and healthcare.
The integration also includes the use of decentralized identity technologies, such as those provided by WeCan Group's KYO platform, for secure registration and authentication of IoT objects. This enhances the security of AI systems by ensuring that data sources are genuine and trustworthy.
Moreover, the use of quantum-resilient encryption for satellite communications by WISeSat secures the transmission of AI data, particularly for AI applications that rely on real-time data from satellites, such as environmental monitoring or surveillance.
The integration of WISeAI's decentralized model into SEALSQ's quantum platform not only enhances AI security but also paves the way for more robust and future-proof AI systems, capable of operating securely in both terrestrial and space-based environments.
The approach also enables decentralised AI, which will help build a more equitable and inclusive future by reducing biases and promoting fair access to AI-driven opportunities. AI solution exchanges will provide platforms for individuals and businesses to access, develop, and contribute to AI solutions tailored to diverse needs.
This transformation could unlock trillions in economic value by addressing critical challenges in healthcare, education, and other sectors. The integration of WISeAI's decentralized model into SEALSQ's quantum platform is expected to be a significant step towards unlocking AI's full potential and building a more secure, prosperous, and inclusive future for all.
- To further secure its AI systems, SEALSQ, the company integrating WISeAI's model, will employ technology that analyses data-and-cloud-computing operations within PKI systems, aiming to detect abnormalities and prevent potential cybersecurity threats.
- As part of the integration with SEALSQ's quantum platform, WISeAI's decentralized model will bolster the platform's capabilities, contributing to the development of more robust and technology-resilient AI systems, ensuring secure operations in both terrestrial and space-based environments.
