Decentralized Protection
Security capabilities no longer rely on centralized processing within enterprise data centers or the cloud; instead, they are deployed at edge nodes. This ensures that "wherever there is access, there is protection," significantly reducing the security risks and latency associated with transmitting data to central nodes.
Lightweight Design & Resource Adaptability
Tailored to the characteristics of edge devices-specifically their limited computing power and complex operating environments-the system employs *lightweight security protocols* and hardening technologies to ensure effective operation even in low-resource settings.
Dynamic Access Control & Granular Policies
Permissions are automatically adjusted based on real-time risk assessments. The system also adheres to the *Principle of Least Privilege*, granting only the minimum level of access required to complete specific tasks.
Edge-Cloud Collaborative Defense
An integrated "Cloud-Edge-Endpoint" security architecture is established: the cloud provides global threat intelligence, policy orchestration, and big data analytics, while edge nodes execute local policies, provide real-time responses, and perform initial-layer defense, thereby forming a unified, collaborative defense mechanism.
Support for Massive Heterogeneous Endpoints
The system is compatible with a *diverse range of access devices*-including IoT sensors, industrial equipment, and mobile terminals. Even if certain devices are unable to install complex security software, they can still be centrally managed and controlled via edge gateways.
Low Latency & High Performance
By utilizing *proximity-based PoP (Point of Presence) access* and local traffic processing, the system avoids the need to backhaul traffic to distant data centers, thereby significantly boosting the response speeds of critical business operations (such as industrial control systems and remote work environments).