Cisco technology, inc. (20240348559). INTEGRATION OF RESERVATION AND NON-RESERVATION ROUTING PROTOCOLS WITHIN THE SAME NETWORK simplified abstract
Contents
INTEGRATION OF RESERVATION AND NON-RESERVATION ROUTING PROTOCOLS WITHIN THE SAME NETWORK
Organization Name
Inventor(s)
Christian Schmutzer of Koenigsbrunn im Wein (AT)
Francois Clad of Horbourg-Wihr (FR)
Stephane Litkowski of Liffre (FR)
INTEGRATION OF RESERVATION AND NON-RESERVATION ROUTING PROTOCOLS WITHIN THE SAME NETWORK - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240348559 titled 'INTEGRATION OF RESERVATION AND NON-RESERVATION ROUTING PROTOCOLS WITHIN THE SAME NETWORK
The abstract describes techniques for enabling a resource reservation routing protocol, such as RSVP-TE, to perform routing operations based on bandwidth reservations by a non-reservation protocol, such as SR. These techniques allow a network to use both reservation and non-reservation protocols, utilizing bandwidth reservation measures associated with an SR LSP to create LSPs associated with RSVP-TE.
- Integration of resource reservation and non-reservation protocols in network routing operations
- Utilization of bandwidth reservation measures from SR LSPs to create RSVP-TE LSPs
- Coexistence of different routing protocols for efficient network management
- Enhanced flexibility and optimization in routing decisions based on bandwidth reservations
- Improved network performance and resource utilization through combined protocol usage
Potential Applications: - Telecommunications networks - Data centers - Internet service providers - Cloud computing environments
Problems Solved: - Efficient utilization of network resources - Enhanced routing flexibility and optimization - Improved network performance and reliability
Benefits: - Enhanced network resource management - Increased flexibility in routing decisions - Improved network performance and reliability
Commercial Applications: Title: "Integrated Routing Protocols for Enhanced Network Resource Management" This technology can be applied in telecommunications networks, data centers, and cloud computing environments to optimize routing decisions based on bandwidth reservations, leading to improved network performance and resource utilization. The market implications include enhanced network efficiency, reliability, and scalability, making it attractive for network operators and service providers.
Questions about Integrated Routing Protocols: 1. How do integrated routing protocols improve network resource management? Integrated routing protocols improve network resource management by allowing for efficient utilization of bandwidth reservations and optimizing routing decisions based on available resources. 2. What are the key benefits of using both reservation and non-reservation protocols in network routing? The key benefits include enhanced flexibility in routing decisions, improved network performance, and increased reliability through the combined use of different protocols.
Original Abstract Submitted
techniques for enabling a resource reservation routing protocol (e.g., the resource reservation protocol-traffic engineering (rsvp-te) protocol) to perform routing operations based at least in part on bandwidth reservations by a non-reservation protocol (e.g., the segment routing (sr) protocol) are described herein. in some cases, the techniques described herein enable an example network to use both a resource reservation protocol and a non-reservation protocol. in some cases, one or more bandwidth reservation measures associated with a label-switched path (lsp) associated with a non-reservation protocol (e.g., an sr lsp) are used to create lsps associated with a resource reservation protocol (e.g., rsvp-te lsps).