Naoris Protocol has introduced a groundbreaking cybersecurity solution tailored for the evolving demands of the Web3 ecosystem. As phishing schemes grow more sophisticated and the capabilities of quantum computing approach disruptive thresholds, traditional security models are showing signs of inadequacy—particularly within decentralized frameworks. In response, Naoris Protocol has unveiled what it claims to be the world’s first decentralized post-quantum cybersecurity infrastructure purpose-built for blockchain environments.
Launched in early 2025, the protocol’s Decentralized Physical Infrastructure Network (DePIN) testnet has already demonstrated considerable impact. It has processed over 80 million post-quantum transactions and intercepted nearly 392 million threat attempts. The testnet has also facilitated the creation of 2.8 million secure wallets and supported the deployment of over 900,000 distributed security nodes. These figures underscore the scalability and robustness of the platform as it seeks to establish a proactive, community-driven defense system for Web3 users.
At the heart of this system lies Dilithium-5, a post-quantum cryptographic signature algorithm. This protocol is designed to withstand decryption attempts by future quantum computers, ensuring that digital signatures remain secure even in a post-quantum landscape. The technology also addresses current vulnerabilities such as ice phishing and malicious transaction approvals. A transaction simulation layer has been introduced to help users preview actions clearly before executing them—removing the ambiguity that phishers often exploit.
Naoris Protocol’s strategy extends beyond individual security features. A major component of its architecture is the distributed browser security network, in which every device running the protocol acts as a security node. This collective mesh continuously monitors internet traffic to detect and block harmful scripts and suspicious URLs. The decentralized design makes it highly resistant to breaches, as attackers would need to compromise the network in its entirety rather than a single point.
The protocol is also developing additional layers of protection to strengthen its cybersecurity framework. These include sandboxing environments to contain threats, adaptive multisignature wallets for enhanced transaction security, and encrypted backup options to prevent loss of private keys. Other innovations in progress involve automated smart contract auditing tools, real-time UX alerts for suspicious dApps, and a reputation-based rating system to assess dApp integrity. These components aim to bolster the broader SubZero infrastructure while reinforcing overall Web3 resilience.
To support this growing infrastructure, the $NAORIS token is scheduled to launch in mid-July 2025. The token will serve multiple roles, including decentralized validation, access to security services, staking for node participation, governance voting, and interoperability across compatible blockchain ecosystems. Community members participating in the testnet can earn rewards in preparation for the upcoming launch.
In an era where phishing attacks, wallet breaches, and smart contract vulnerabilities continue to plague decentralized platforms, Naoris Protocol positions itself as a transformative force in cybersecurity. By establishing a decentralized, post-quantum-ready trust architecture, the project is setting a new benchmark in how security can be integrated into blockchain infrastructure from the ground up. Its testnet achievements and expanding feature set suggest that stronger, user-centric protection is not only feasible but already underway.
