1. Network Cloudification
Network cloudification research primarily focuses on key technologies such as Software-Defined Networking (SDN) and Network Function Virtualization (NFV). SDN separates the control plane from the data plane, enhancing network flexibility and programmability, making network management more centralized and efficient. NFV aims to virtualize network functions such as routing, firewalls, and load balancing into software applications running on general-purpose hardware, reducing dependency on dedicated hardware, lowering costs, and enabling more flexible service deployment.
2. Intelligent Carrier Networks
Intelligent carrier networks focus on leveraging advanced technologies to optimize and manage network resources. By applying data analytics, intelligent networks can automatically detect and respond to network state changes, enabling fault prediction, traffic management, and network enhancement. Additionally, intelligent networks dynamically adjust resource allocation based on real-time data, improving overall efficiency and performance.
3. End-to-End Collaboration
End-to-end collaboration ensures seamless integration and communication between different network devices and systems, improving overall network performance and service quality. This involves optimizing network protocols and interfaces to ensure smooth data transmission from user devices to backend servers. By achieving intelligent end-to-end coordination, networks can reduce latency, accelerate data processing, and enhance reliability.
4. High-Quality Networking
High-quality networking focuses on ensuring consistent and predictable network performance to enhance service quality. This includes Deterministic Networking (DetNet) research, which aims to provide low-latency and highly reliable network services for mission-critical applications. By designing advanced scheduling algorithms and traffic management strategies, high-quality networks can ensure timely packet delivery and minimal packet loss. Additionally, optimized resource allocation and fault recovery mechanisms ensure high-quality service under various network conditions.
China Telecom Cloud Computing Research Institute Beijing Headquarters
(No. 42, Xueyuan Road, Haidian District, Beijing)
China Telecom Cloud Computing Research Institute Shanghai Branch (No. 211, Century Avenue, Pudong New Area, Shanghai)
Beijing Public Security Registration No. 11040140060 | Beijing ICP No. 12007914
Value-Added Telecommunications Business Operation License A2.B1.B2-20090001
1. Network Cloudification
Network cloudification research primarily focuses on key technologies such as Software-Defined Networking (SDN) and Network Function Virtualization (NFV). SDN separates the control plane from the data plane, enhancing network flexibility and programmability, making network management more centralized and efficient. NFV aims to virtualize network functions such as routing, firewalls, and load balancing into software applications running on general-purpose hardware, reducing dependency on dedicated hardware, lowering costs, and enabling more flexible service deployment.
2. Intelligent Carrier Networks
Intelligent carrier networks focus on leveraging advanced technologies to optimize and manage network resources. By applying data analytics, intelligent networks can automatically detect and respond to network state changes, enabling fault prediction, traffic management, and network enhancement. Additionally, intelligent networks dynamically adjust resource allocation based on real-time data, improving overall efficiency and performance.
3. End-to-End Collaboration
End-to-end collaboration ensures seamless integration and communication between different network devices and systems, improving overall network performance and service quality. This involves optimizing network protocols and interfaces to ensure smooth data transmission from user devices to backend servers. By achieving intelligent end-to-end coordination, networks can reduce latency, accelerate data processing, and enhance reliability.
4. High-Quality Networking
High-quality networking focuses on ensuring consistent and predictable network performance to enhance service quality. This includes Deterministic Networking (DetNet) research, which aims to provide low-latency and highly reliable network services for mission-critical applications. By designing advanced scheduling algorithms and traffic management strategies, high-quality networks can ensure timely packet delivery and minimal packet loss. Additionally, optimized resource allocation and fault recovery mechanisms ensure high-quality service under various network conditions.
